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Can A Light Beam Its Speed 1.16 million km per second Be Found? (Revised)
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Abstract
The paper provides 4 hypotheses with their explanations and proves – let's provide them in following
Paper hypotheses
Hypothesis No. (1)
The space is created from one energy and this energy is provided by a light beam moves by a speed 1.16 million km per second – the speed is registered in the created space proves the speed is a fact.
Hypothesis No. (2)
The Gravitational Waves Are Produced By The Planets Motions Energies And Not By The Sun Gravitational Field– Moreover- The Sun Does NOT Produce A Gravitational Field And It Has No Massive Gravity-
Hypothesis No. (3)
Mars original orbit was between Mercury and Venus and Pluto was The Mercury Moon (Pluto size was equal Mercury size) But these two planets had migrated from their original orbits as a result for a collision- the planets migration caused a risk for the solar system geometrical design- Uranus and Jupiter the Two planets worked to repair the solar system design– that caused Jupiter orbit to be the main orbit in the solar system design- Jupiter orbit proves the speed 1.16 million km per second is a fact.
Hypothesis No. (4)
The Sun Is a phenomenon created by the planets motions
The sun rays is created from the gravitational waves motions energies and the gravitational waves are produced by the planets motions energies-
Based on that
The Sun Is A Phenomenon Created By The Planets Motions
And
The Sun Is NOT Doing Nuclear Fusion To Produce Its Rays- instead- The Planets Motions Energies Total Is Used To Produce The Sun Rays
The Sun Is Created After All Planets Creation And Motion – means
The Planets Are Created And Moving In Their Orbits Around A Point Of Space Before The Sun Creation- And The Sun Is Created On This Point Of Space around which the planets revolve - And
No Planet moves by The Sun Gravity (Newton is Wrong) - And
The Sun Doesn't Produce A Gravitational Field (Einstein Is Wrong)
And
The Sun Is A Phenomenon Created By The Planets Motions– means-The Sun creation and death depends on a cycle – means – after this current sun death another sun will be created for the solar system.
The Hypotheses Explanation
The abstract provides the hypotheses explanation and the paper provides their proves and discussions- In following the hypotheses will be explained in details
NOTICE - The creatures and all matters on the Earth are created from the sun light energy and the sun light speed is 300000 km/s, because of that, the creature realization is limited to the speed 300000 km/s and can't realize the original speed (1.16 million km per second) that means the speed 300000 km/s is a limit for the creatures realization and not for the universe design.
Notice- this revised version adds only more proves for the paper first hypothesis-
Hypothesis No. (1)
The space is created from an energy and this energy is provided by a light beam moves by a speed 1.16 million km per second – the speed is registered in the created space which proves the speed is a fact
The Hypothesis Explanation
I- The Space Is Created By One Light Beam Energy- And This Light Beam Speed Is 1.16 million km per second
I-1 Preface (the main idea)
I-2 The Space Creation Method (the distances are one network)
I-3 Light Coherence between light (1.16 million km /s) and light (300000 km/s)
I-4 The Matter definition (based on my planet diameter equation)
I-5 The Planets Creation
I-6 Can The Time Machine Be A Fact?
The Hypothesis Proves
I-7 The Proves Logic Analysis
I-8 Planet Velocity Is A Function In A Speed = (1.16 million km /s)
I-9 Planets Orbits Are Defined By A Motion Its Speed = (1.16 million km /s)
I-10 Jupiter distances are defined by a motion by a speed = (1.16 million km /s)
I-11 The Solar System Geometrical Design Proves The Hypothesis
I-12 The Solar System Distances Analysis Prove The Hypothesis
I-13 Deep Analysis For The Planets Orbits
1-14 Light defines each planet orbital period
I-15 Can Planet Diameter Be Used As A Period Of Time
I-16 Mercury Orbit Analysis
I-1 Preface (The Main Idea)
The solar system (planets and distances) is created from one energy and this energy is provided by one light beam and this light beam moves by speed (1.16 million km/s)
The space is created before the planets creation-
Let's write the whole story in following
The light beam (1.16 million km per second) started its motion from Mercury orbit moves toward Pluto orbit– by that– we consider Mercury orbit is the origin point-
Now- we should notice- No planet is created yet- the motion from Mercury orbit to Pluto orbit defines the motion direction- and No planet is created before this motion end nor during this motion- the planets will be created after this motion is finished means when the light 1.16 million km per second reaches to Pluto (orbit)- after this event – the planets will be created –as I will explain later
Notice
The light (1.16 million km per second) creates the distances by its motion- means- the light moves from Mercury point to Venus point– the distance from Mercury to Venus was not found and is created only by the light motion through it for first time- means – before the light motion this distance was NOT found- It's found after the light moves through this distance for first time-
This is similar to the blood motion through the arteries, the blood creates these arteries and the blood moves through these arteries, but the blood created these arteries with its first motion and that needed energy- but – after the arteries creation the blood move through them without any energy is required- means- the first motion is the most important one because by it the arteries are created
Shortly- The space is created from the energy of this light beam its speed 1.16 million km per second – NOW- after the Space creation- the light beam energy is decreased because of the energy consumption in the space creation process- and the rest energy is one light beam its speed is (C=300000 km/s =the light known speed) – But - We understand that- it's the same one light beam- its speed was 1.16 million km /s before the space creation- and the light created the space and that caused to consume the light energy and that caused to decrease the light speed to be 300000 km/s
Shortly- the light beam started its motion from Mercury (orbit) with speed 1.16 million km /s and reaches to Pluto (orbit) with a speed 300000 km/s because of the energy consumption in the space creation process
Let's give example to explain this idea
Imagine we create A Sea Of Water- we use energy to create this sea of water- now we have some energy and we use this energy to create this sea of water- BUT- our energy is NOT spent completely But there's a small part still rest with us – this small part of energy is used to create one wave moves through this sea and this wave speed is 300000 km/s (I suppose the space is similar to the sea of water)
Now – the rest energy is found in one light beam its speed 300000 km/s and this light beam is found NOW in Pluto Orbit – and this light beam will be reflected from Pluto orbit toward the inner planets– means- the rest energy will move in the reflected direction to the original light motion direction.
This idea will be explained in details in the next point- shortly
The light beam (300000 km/s) will be reflected from Pluto toward the inner planets
AND the light 300000 km/s will meet the original light beam (1.16 million km per second) in the origin point (in fact – beside the origin point) and there's a coherence of light is done between the light beam (300000 km/s) and the light beam (1.16 million km per second) – this coherence of light is proved strongly- we have to ask (how can that be possible while the light beam 1.16 million km /s is consumed and the new light beam 300000 km/s is the rest energy? how this light beam (300000 km/s) can meet the original one (1.16 million km per second)? in points no. (I-3) and no.(I-6) I answer this question.
Notice (1) I suppose the rest energy is a light beam its speed is (C=300000 km/s) but this idea is for simplicity- the rest energy can be in any wave form its speed (C=300000 km/s) – no necessity to be in visible light beam form
It's simply energy moves by the known speed of light (C=300000 km/s)
Notice (2)
All Planets Orbits Are Defined Before Any Planet Creation-
The light used the distance from the sun to Pluto as one area and create one geometrical design for this area before any planet creation
Notice (3)
The planets are created from the rest energy its speed (300000 km/s) – means- the space is created by the light 1.16 million km per second and the energy is consumed in the space creation and the rest energy is one light beam its speed 300000 km/s (or one wave moves by the known speed of light C=300000 km/s) – the solar planets are created from this one wave its speed 300000 km/s and that means all planets orbit are created and defined before any planet creation
Notice (4)
The Sun Is Created After All Planets Creations And Motions
The sun is a phenomenon created by the planets motions energies total
The sun doesn't produce a gravitational field and doesn't have massive gravity
Logically – No planet moves by the sun gravity
(The Planet Moves With The Energy From Which The Planet Is Created – Newton is wrong- later we discuss the proves)
Notice (5)
The child (fetus) inside his mother is created by the blood motion- the blood motion creates arteries for this child and through these arteries the blood moves also but the arteries themselves are created by this same blood motion- Similar to that- the distances are created by the light motion energy and the light moves through these distances also but originally these distances themselves are created by the light motion energy- means the distances creation is done with the first time of the light motion through them - that required energy- but after the distances are created no more energy is required- the light (or planet) can pass simply through these distances
I-2 The Space Creation Method (the distances are one network)
Data
778.6 = 1.16 x 671
721 = 1.16 x 621
629 = 1.16 x 543
543 = 1.16 x 468
5906 = 1.16 x 5127
These numbers are distances in (million km)
778.6, 721, 671, 629, 551 are Jupiter distances to the sun, Mercury, Venus, Earth and Mars respectively- 5906 and 5127 Pluto distances to the sun and Jupiter respectively
468 = 936 /2 where (940 million km = the Earth orbital circumference)
Discussion
(1)
The previous data tells us how the light beam motion creates the distances-
Simply the light uses a distance as (a period of time) and travels through this period another distance- that can be understood clearly from Jupiter distances- let's look deeply as possible
The light beam (1.16 million km per second) uses the period 629 seconds to pass a new distance = 729 million km (Mercury Jupiter distance is 721 million km error 1%) – where 629 million km = Jupiter Earth distance
Also
The light beam (1.16 million km per second) uses the period 671 seconds to pas a new distance =778.6 million km (Jupiter orbital distance)
where 671 million km = Jupiter Venus distance
by this method the light creates the distances based on each other- and that makes all distances to be created depends on one another and that makes all distances in the solar system to be One Network where all distances are created based on the same One Geometrical Design
(2)
The data shows the creation method- and we understand that- the distance 551 million km (Jupiter Mars Distance) is created firstly and the light (1.16 mkm/s) used this distance as a period of time (551 sec) and the light travels during this period a distance =(639 million km where 629 million km is Jupiter Earth distance error 1.5%) and then the light uses the new distance (629 mkm) as a period of time (629 sec) and the light travels during this period a distance = (729 million km – where 721 million km = Mercury Jupiter distance – error 1%)
The data shows the method clearly and we understand the light original motion started from Mercury orbit to Pluto orbit because the distances are created based on one another in that direction of motion as explained clearly
(3)
New data NO. (1)
2723 sec x 2 x 300000 km/s = 1622 million km – where
2723 million km = Uranus Earth Distance
1622 million km = Uranus Neptune Distance
The data shows- the light beam its speed (C=300000 km/s) is in proportionality also with the created distances but this proportionally is found in Reflected Direction
Logically, The light can NOT move from Uranus to Neptune and after that the light returns to move from Uranus to the Earth- it's simply reflected direction
The distances are NOT created by the motion of this light beam (300000 km/s) – but the distances are created by the motion of the original light beam (1.16 million km per second) but the proportionality between the distances with the light (300000 km/s) is found because there's a proportionality between the original one (1.16 million km per second) and this light beam (300000 km/s) – AND
Because the light (300000 km/s) moves in the reflected direction of the original light beam (1.16 million km per second) that causes the proportionality between the distances and the light (300000 km/s) be in a reflected form
New data NO. (2)
2094 sec x 300000 km/s = 629 million km
2094 million km = Uranus Jupiter distance
629 million km = Earth Jupiter distance
The light (300000 km/s) moves in reflected direction- for that- the distance 2094 million km is used as a period of time to pass a new distance (629 mkm)
The data proves the idea clearly
Notice (1)
The proportionality between the light (1.16 million km/s) and the light (300000km/s) will be discussed in point no. (I-3)
Notice (2)
In Point (**) I prove the gravitational waves are produced by the planets motions energies- and I prove that – the planets motions energies move toward Pluto and this energy is reflected from Pluto toward Venus- this fact is proved by powerful data and proves- for that – I don't explain in details the light motion trajectory from Pluto toward the inner planets because this motion trajectory is studied in details in the hypothesis No. (2) of this discussion- understandable that- the planets motions energy trajectory is the same trajectory the light moves through it – means this trajectory is studied in details and powerful proves in point no. (**)
Notice (3)
Jupiter Distances Analysis shows that Jupiter orbit is the central orbit for the light (1.16 million km per second) based on which all planets orbits are defined.
But – this is not the first creation case –
The light (1.16 million km per second) created the planets orbits based on each other starting from Mercury orbit moves toward Pluto orbit – this is the fist creation case – and this fact is proved strongly in point no. (I-9*)
BUT
Mars had migrated from its original orbit (Mars original orbit was between Mercury and Venus) and Pluto had migrated also (Pluto Was The Mercury Moon revolves around Mercury and Pluto size was equal Mercury size)
The planets migration caused a serious risk for the solar system geometrical design- Uranus was the first planet tried to repair the solar system geometrical design and to save it- by that
Uranus created a vertical effect on Jupiter orbit to fix Jupiter in its orbit and prevent it to migrate with the migrant planets- and based on Jupiter orbit the other planets orbits are modified – that supported the solar system original design and saved it which causes to protect the geometrical design from the destruction.
As a result
That causes Jupiter orbit to be the most important orbit in the solar system- the paper third hypothesis explains the planets migration and Jupiter orbit analysis is done with the solar system design analysis (I-11*)
I-3 Light Coherence between light (1.16 million km /s) and light (300000 km/s)
(1)
The Coherence Of Light
The previous explanation told us that we have 2 light beams-
The original light beam its speed (1.16 million km per second) and it started its motion from Mercury orbit to Pluto orbit (where Mercury orbit is the light motion origin point) – and this light beam created all distances in the solar system and lost its energy in the space creation process and the rest energy is one light beam its speed is (C=300000 km/s)
The other light beam is the rest energy- its speed is (C=300000 km/s) and it moves in a reflected direction from Pluto toward Venus and Mercury-
Now – we have a coherence of light between these two light beams- the coherence is proved by powerful proves BUT firstly we have to ask (how can this coherence be occurred)? Because the original light (1.16 million km/s) is consumed and its energy is used already and the rest energy is this light its speed is (300000 km/s) - HOW can the light (1.16 million km/s) meet the light (300000 km/s)??
Imagine we have (116 dollars) and we spent all money except (30 dollars)- how can this (30 dollars) meet the original money (116 dollars)??
Let's write the answer
Suppose the light beam (300000 km/s) moves in the reflected direction (in the space) and also (in the time) – that can enable the light (300000 km/s) to meet the original one (1.16 million km/s) in the past and the coherence will be done there in the past- and we see the coherence results and effects on the solar system -
Means – the light (300000 km/s) moves into the past and found the original light (1.16 million km/s) in the past
Notice No. (1)
The original light beam (1.16 million km/s) can NOT move toward the future to meet the light (300000 km/s) because in the future the original light beam (1.16 million km/s) is NOT found –by that – the coherence can't be occurred in the future - But – the light (300000 km/s) can move into the past because this light beam (300000 km/s) was found in the past because it's a part of the original light beam (1.16 million km/s)
Notice no. (2)
I prove the coherence is done by powerful proves- that tells- this idea is a fact–means- there's a strong proof tells (in fact the light beam 300000 km/s moved into the past) and if we can use this feature practically we can get photos from the past events and by that we can have photos from the catastrophe which killed the dinosaurs and know much better about what had happened really in that time - This can be a real machine of time – the light motion into the past is a strong method to perform this invention.
Notice no. (3)
Why Can NOT We Move Into The Past As We Move Into The Future?
This question is answered in point no. (**)
(2)
The Light Coherence Proves
First Proof
The planets order is typical to the interference of Young –
In the double slits experiment, Young Interference is consisted of bright fringes and dark fringes - If we consider planet diameter is equivalent to bright fringe – we will see that- the planets order is typically to Young interference because
Jupiter (the greatest fringe) is in the middle and the fringes width is decreased gradually on both sides – typically to the planets order
Notice / I have proved that (Mars original orbit was between Mercury and Venus) if we restore Mars to its original orbit the order will be typical to the Young Interference
(I prove this fact in point no. **)
Second Proof
The planets velocities are defined based on the speed (1.16 million km per second) and the planets velocities analysis shows the speed (300000 km/s) is the planets motions limit- means- the planets velocities are defined based on both velocities (1.16 million km per second) and (300000 km/s) I prove this fact in point No. (**)
Third Proof
The light coherence defines the solar day period (24 hours) which is the solar system design cornerstone
(1.16 /0.3) x 2π = 24.3
By this equation the space and time are created- the equation tells–the space is created in curves (2π) and the time is created in units each unit is (24 hours)
Please note – the solar system geometrical design depends on the light motion in a solar day (24 hours = 86400 seconds)
The light (1.16 million km per second) moves in a solar day (86400 seconds) a distance = 100733 million km (= the planets orbital circumferences total)
Fourth Proof
The planets data prove there's a speed (1.16 million km per second) found in the solar system but the sun light beam moves by speed (300000 km/s) that tells the two speeds are facts and found in the solar system and the coherence between them is a logical result
The hypothesis proves discuss many powerful proves for this fact-
Notice- the coherence of light is a very important fact because it tells the light (300000 km/s) moved into the past and by that gives us a proof for the motion on the time axis- for that – many powerful proves support this fact.
I-4 The Matter definition (Based On My Planet Diameter Equation)
(1)
Let's remember my planet diameter equation
Planet Diameter Equation (v1/v2)= (s/r)= I
v = Planet Velocity
r = Planet Diameter
s= Planet Rotation Periods Number In Its Orbital Period
I= Planet Orbital Inclination (example, 1.8 degrees be produced as a rate 1.8)
v2, s, r and I are belonged to one planet and v1 is belonged to another planet
The planet (v1) is defined by test the minimum error
Earth Equation uses Neptune velocity
Mars Equation uses Pluto velocity
Jupiter Equation uses the Earth moon velocity
Saturn Equation uses Mars velocity
Uranus Equation uses Neptune velocity (As Earth)
Neptune Equation uses Saturn velocity
Pluto Equation uses the Earth moon velocity (As Jupiter)
(The Equation works from The Earth To Pluto) (the discussion explains the reason)
Example
Neptune Equation (89143 /49528) = 9.7/ 5.4 =1.8
89143 = Neptune rotation periods number in Neptune orbital period
49528 km = Neptune diameter
9.7 km/s = Saturn velocity
5.4 km/s = Neptune velocity
59800 days = Neptune orbital period (and Neptune rotation period =16.1 hours)
1.8 degrees = Neptune Orbital Inclination
(the equation is proved and discussed in details in point no. **)
(2)
Can We Define The Matter Nature Based On My Planet Diameter Equation?
The equation tells, the matter is created based on its motion! means Neptune diameter is 49528 km because Neptune velocity is 5.4 km/s!!
That tells the motion with velocity 5.4 km/s is defined before Neptune diameter is created! Can we understand such definition for the matter nature? let's try
(A)
The Matter Nature
The space and matter are created from the same original energy and they move with this original energy motion- BUT the matter has a distinguish picture and different velocity from the space picture and velocity (notice- The Gravitational Waves Prove That The Space Has A Motion)
If we suppose the space is similar to the sea of water, the matter be similar to a whirlpool or a vortex found on the sea page- means- the matter is a geometrical design has a distinguish picture from the space- as the whirlpool, it's created from the sea water but it has a distinguish picture from the sea waves picture
Means
The whirlpool is carried by the waves motion- and- the matter is carried by its original energy and moves with it- No Mass gravity is required for the matter motion- means- the matter is MOVABLE by nature.
Also
The whirlpool dimensions are defined by the water motion - for example- we have a whirlpool its diameter is (2 meters)- this diameter is defined by the sea water motion features (velocity, pressure and other motion features) by that- the water motion analysis explains how the whirlpool dimensions are created
Also- the whirlpool is created but the creation requirements are needed every day- means- even if this whirlpool is found since years it can be changed immediately if the water motion features are changed- means- the whirlpool creation process is NOT a historical one.
Also- the matter is similar to a creature muscle, the muscle is found based on the blood motion and without this motion the muscle can be changed or removed.
Shortly
The Original Energy Was Found In Motion By Itself (As Moving Light Beam)
From This Moving Energy The Planet Matter Is Created
The Created matter dimensions are defined by the features of this original energy motion (means the planet creation data is defined by the energy motion features)
After the planet creation- The Planet Moves With This Original Energy – means- the created planet moves a motion depending on the motion of this original energy because the planet moves with this original energy motion- and – the planet moves by this original energy motion (No mass gravity is required to cause the matter motion)
The planet creation data is in full harmony with its motion features- this fact is produced logically because the planet data is defined by the original energy motion features.
This explanation tells (Neptune diameter is 49528 km because Neptune velocity is 5.4 km/s)
Example For Explanation
We agreed that the space is similar to the sea of water and the planet (matter) is similar to a whirlpool found on the sea page- this picture explains the idea clearly- because
We see the whirlpool doesn't move by the sea water waves velocity but by another velocity and that shows a distinguish in form and motion between the whirlpool (the planet) and the sea waves (the space)- BUT- the whirlpool dimensions are defined based on the sea water motion features- and if the motion features are changed the whirlpool dimensions will be changed also- also the whirlpool moves by the sea water motion even with a different velocity relative to the sea waves velocity but the whirlpool motion still is caused by the sea water motion- based on this picture we can say (because the water motion velocity is 80 km/h that causes this whirlpool diameter to be 2 meters "for example') – this is perfectly our sentence – let's remember it
(because Neptune velocity is 5.4 km/s that causes Neptune diameter to be 49528 km)
This idea is proved by my planet diameter equation (my fourth equation) (point No.**)
(B)
Now The velocity is a motion in (A Defined Direction)
Means– the matter is created because it depends on a motion in a defined direction- as we have seen- Neptune diameter is 49528 km because Neptune velocity is 5.4 km/s but this velocity is a motion in defined direction- and that tells Neptune creation depends on a motion in the direction of the (x axis positive "+x ") (for example)
That tells, if this motion moves in (x axis negative "-x ") that will cause Neptune diameter to be changed or perished
Means- the matter creation needs a motion in A Defined Direction
Now let's ask our question
Why Can't The matter (creature) Moves Toward Its Past?
Because the matter depends on a motion in one defined direction- that causes the matter moves into (the future) always and can't move into (the past) let's discuss this question more deeply in point no (I-6)
Notice
No Planet Moves By The Sun Gravity (Newton is wrong) – logically because- the planet moves by its creation force- means- the planet creation and motion should be done by one force only (one energy only) because if two forces have effects on the same one planet- this planet will be broken- this fact is proved strongly with the gravitational waves source discussion (Point no.**)
I-5 The Planets Creation
I summarize the main idea in following and the idea proves and discussions are found in point no. (**)
(i)
We know, the solar system is created from energy of one light beam its speed is 1.16 million km per second- and – the light created the space (the planets orbits) firstly and the energy is consumed in the space creation- and for that- the rest energy is found in one light beam its speed is 300000 km/s - And
From this light beam 300000 km/s the solar planets are created
Shortly
before the solar planets creation
The solar system was one light beam (or one wave moves by speed of light (300000 km/s)- by that – the solar system is One Wave moves by speed of light (300000 km/s)
Now
The Solar System needs To Create A Stationary Point Its velocity Zero relative to the moving one wave (300000 km/s)
This is the basic information in the solar system design-
The solar system needs to create a stationary point relative to the wave motion- by that – two velocities will be found which are (v1= the wave its speed 300000 km/s) and (v2= Zero= the stationary point velocity relative to the wave motion)–these two velocities produce a relative motion with different velocity 300000 km/s– this relative motion is the solar system design cornerstone.
Shortly – the solar system needs to create A Stationary Point
Notice– The solar system is carried by the light beam motion, NO stationary point can be found here – it's similar to a ship on the sea water- Nothing can stop- because the motion is done forcedly by the sea water –
The stationary point will be similar to the whirlpool (vortex) on the sea page- BUT
The solar system needs to create this stationary point - Now – let's try to create this stationary point in following - The solar system uses two procedures to do that,
(ii)
The first procedure
The wave its velocity 300000 km/s revolves around a point in space (any point in space), the revolution motion creates 2 equal velocities on both sides of the revolution- the two velocities are equal in value and opposite in direction- their total be equal Zero-means- the revolution motion creates A Stationary Point in the center of the revolution.
The second procedure
The previous idea is correct- but –the velocity 300000 km/s is a huge one and to decrease it to Zero velocity this is a complex process– for that- the wave (300000 km/s) created small waves with low velocities to use them as steps to decrease the velocity to Zero- the small waves are The Planets- (The planet is a small wave moves by low velocity relative to the original wave its velocity 300000 km/s)
Why Are These Small Waves Required?
Because the velocity 300000 km/s is decreased to Zero by using these small waves and their low velocities- the low velocities are used as steps to decrease the unified wave velocity (300000 km/s) to be (Zero)- this process decreases the velocity gradually from 300000 km/s to Zero depending on these small waves velocities (the planets velocities)
Means- the planets are created for this process to decrease the wave velocity from 300000 km/s to Zero- and The Planet Is A Small Wave Moves By Low Velocity
Shortly – the solar system has one complete system of velocities, Starting from Zero to 300000 km/s where the planets velocities are the steps between the two velocities – let's prove that here
(iii)
300000 km = 7.1 x (205.8)^2 where
7.1 is Lorentz length contraction effect for speed 297000 km/s (99% of speed of light)
205.8 km/s = the 9 planets velocities total (176 km/s) + the Earth moon velocity
(The moon velocity =29.8 km/s = the Earth velocity because they revolve together)
Why does the data use the squared value (205.8)^2?
We know the answer- but - Let's remember it
The planets are geometrical points on the same light beam and move with its motion- for that- the planets velocities rates creates rates of time– for example- Mercury velocity = 1.6 the Earth velocity- that means – one hour of Mercury clock = 1.6 hours of the Earth clock- Why??
Because Mercury and the Earth are carried by the same one light beam- the light moves one motion and passes one distance in one period of time- by that Mercury and the Earth have to move this same motion and to pass this same distance in this same period of time- but the two planets velocities are different- for that- the planets use different rates of time based on their velocities rates and by that the planets move equal distances in the same period of time –
Now- the velocity (205.8 km/s) moves relative to the stationary point (Zero) and creates a rate of time (1 second = 205.8 seconds) –
(one second of the unified wave clock = 205.8 seconds of the stationary point clock)
But – the energy is reflected in the solar system (I prove that in point no.**),
The energy reflection reflects the players – means
(one second of the stationary point clock = 205.8 seconds of the unified wave clock)
The stationary point will be THE SUN – by that
(one second of the sun clock = 205.8 seconds of the unified wave clock) – means
(one second of the sun clock = 205.8 seconds of any planet clock) –
Now during one second of the sun clock, the wave clock needs 205.8 seconds while the wave moves by a velocity 205.8 km/s- means –
During one second of the sun clock, the wave moves 42253 km = 300000 km /7.1
That creates the different velocity 300000 km/s between the sun motion and the wave motion-
Notice 1
The wave (205.8 km/s) moves during 1461 seconds a distance = 300000 km, and we know the Earth cycle (1461 days = 365 +365 +365 +366)
That tells, the speed of light (300000 km/s) is performed by the rate of time and that causes to create the Earth cycle-
Notice 2
Planet velocity is created by the rate of time- means- if no rate of time can be used – No planet velocity can be created – instead- all motions will be only by speed of light (300000 km/s)- the planet can create a small velocity because it can use rate of time
We realize that clearly because
The planets motions depend on the light motion- by that – the motion is done by One Motor only which moves by speed of light (300000 km/s), the planets can only move by speed of light or create a rate of time for their smaller velocities - No more options are provided.
Notice 3
We understand that, the planets are geometrical points on the same light beam, means
The planets are similar to carriages in one train and the light motion is the train engine means the planets are carried on the light beam and move with this light motion
I-6 Can The Time Machine Be A Fact?
To answer this question we need to review basics facts we have studied – let's do that in following
(1)
The solar system is created from one energy and this energy is provided by one light beam
(2)
The light moves simply and freely in any direction (for space) and (for time)- means- the light can move into the future (as matter does) or into the past (which the matter can Not do)
(3)
We know, the solar system is created from one light beam, and this light moves by a speed (1.16 million km per second) - And
We know, the light (1.16 million km per second) created the planets orbits firstly before any planet creation and the energy is consumed in the space creation and because of the energy consumption the light speed is decreased from (1.16 million km per second) to the known speed of light 300000 km/s – also
We know, the light (1.16 million km per second) started its motion from Mercury orbit moves toward Pluto- that means- the light (1.16 million km per second) started from Mercury orbit with speed (1.16 million km per second) and the light created all planets orbits till Pluto orbit- before any planet creation- and by that- the light lost its energy and the light beam in Pluto orbit reduced its speed to be 300000 km/s as a result for the energy consumption in the space creation process
(4)
Also we know the energy is reflected from Pluto toward Venus (the inner planets)
By that the light beam (300000 km/s) moves in the reflected direction to the original light beam (its speed 1.16 million km per second)
And – we know-
The light beam (300000 km/s) reaches to the original point (Mercury Orbit) from which the light (1.16 million km per second) started its motion
And we know that
A coherence of light is done between the original light beam (1.16 million km per second) and the light beam (300000 km/s)
BUT we don't know how such coherence can be occurred? Let's analyze that deeply in following
(5)
The produced light beam (300000 km/s) moves in (the reflected direction) to the direction of the original light beam (1.16 million km per second) (In Space) and reaches to Mercury orbit (the origin point)
But– logically – the produced light beam (300000 km/s) can NOT find the original light beam (1.16 million km per second) there because the original light beam is consumed already in the space creation process and the rest energy is this produced light beam (300000 km/s) – based on that –
How Can This Coherence Be Occurred? Means-
How can the produced light beam (300000 km/s) meet the original light beam (1.16 million km per second)? The answer is
The produced light beam (300000 km/s) moves (in the reflected direction) to the motion direction of the original light beam (1.16 million km per second) (In Space) and (In Time) Means- the produced light beam moves into (Its Own Past) and in the past this produced light beam (300000 km/s) was (A Part of the original light beam 1.16 million km per second) and because of that the produced light beam (300000 km/s) can meet the original light beam (1.16 million km per second),
And
The two light beams create a coherence (in the past) and we see the results of this coherence in our present time-
The idea is very important because – the coherence of the two light beams (1.16 mkm/s and 0.3 mkm/s) is proved strongly and with powerful proves and any explanation for this coherence will prove that the produced light beam (300000 km/s) must move Into The Past to enable this coherence occurrence- and that tells clearly- the travel through the time is possible and fact
BUT
Can the matter moves into its past as the light does? NO
Why?? Because
We know the light can move simply in any direction (+ x, + y, + z, + t) by that the light can move into the future and can move into the past BUT
The matter creation depends on A Motion In A Defined Direction-
let's remember this idea
Neptune diameter =49528 km because Neptune velocity is 5.4 km/s
(This Fact Is Proved By My Planet Diameter Equation)
Now, Neptune velocity is a motion in a defined direction
(for example a motion in +x direction)
The energy moves in this direction (+x direction) and because of this motion Neptune matter is created and Neptune diameter is defined- now if the energy moves in (opposite direction "–x direction") that will change Neptune diameter or cause to perish its matter at all
Means- as long as – Neptune is found- that means – the energy moves in one direction (and not two directions) – for that Neptune can move into the future but can NOT move into the past.
Notice
The matter can not move into the past but the light can do that-
Means- we have the time machine already- we need to know how to send the light into the past and by that we can have photos from the past events- and this will be The Time Machine
The Hypothesis Proves
I-7 The Proves Logic Analysis
I-8 Planet Velocity Is A Function In A Speed = (1.16 million km /s)
I-9 Planets Orbits Are Defined By A Motion Its Speed = (1.16 million km /s)
I-10 Jupiter distances are defined by a motion by a speed = (1.16 million km /s)
I-11 The Solar System Geometrical Design Proves The Hypothesis
I-12 The Solar System Distances Analysis Prove The Hypothesis
I-13 Deep Analysis For The Planets Orbits
1-14 Light defines each planet orbital period
I-15 Can Planet Diameter Be Used As A Period Of Time?
I-16 Mercury Orbit Analysis
I-7 The Proves Logic Analysis
Why can we prove that, a light beam its speed 1.16 million km per second is found in the solar system? also, the theory tells this light beam energy is consumed and the rest energy is found in one light beam its speed 300000 km/s (the known speed of light), if this light energy is consumed, how can we prove its existence?
There are two major reasons, which are
The Planets Orbits Are Created Before Any Planet Creation- And These Orbits Are Created Based On One Motion- And This One Motion Is Done By A Speed 1.16 Million Km Per Second.
The Planets Matters Are Created Based On Their Orbits – means- the planet is similar to a tree and the orbit is similar to a ground and the tree is planted in the ground-
NOTICE
after the planet creation, the planet can migrate from its original orbit to any other orbit - as Mars and Pluto did and that will not cause to destroy the planet.
Shortly-
the planet matter and data is created based on this planet orbit- the orbit is defined before any planet creation and based on the orbit the planet matter and data is created (we remember- the space is similar to the sea of water and the planet matter is similar to a whirlpool found on this sea page- that tells the whirlpool is created based on its place in the sea of water)
Shortly- The Planet Matter Is Created Depends On This Planet Orbit
The speed 1.16 million km per second is registered in the planets orbits because the orbits are created from the energy of the light beam (1.16 million km per second), and the planet matter is created from this planet orbit (energy)
Shortly
The light beam (1.16 million km per second) is the source of energy for (everything) in the solar system-
All orbits are defined by its energy, all matters are created by its energy, and all motions are done by its motion-
Can we prove this light beam is a fact? YES we can
The analysis for any data or any motion will discover this light beam because it's the source of energy for everything
Shortly
the light beam (1.16 million km per second) is The Source Energy of the solar system
The mother of all children can be discovered by analysis these children data
A QUESTION
Can the solar system design uses a rate 1.16 and I can't understand that but wrongly consider this rate (1.16) as a speed of light 1.16 million km per second?
NO- this can't be possible – Because
The light beam (1.16 million km per second) behaves typically to the known light beam (300000 km/s) – as we will see in the data discussion
I-8 Planet Velocity Is A Function In A Speed = (1.16 million km /s)
DATA
My 5th equation (v1v2=322)- the planets velocities prove it–let's see that in following
322 = 47.4 km/s (Mercury velocities) x 6.8 km/s (Uranus velocities)
322 = 35 km/s (Venus velocity) x 4.7 km/s (Pluto velocity) x 2
322 = 29.8 km/s (the Earth velocity) x 5.4 km/s (Neptune velocities) x 2
322 = 24.1 km/s (Mars velocity) x 13.1 km/s (Jupiter velocity)
322 = (17.9 km/s)^2 (Ceres velocity) (Max error 2%)
DATA ANALYSIS
The previous data tells the planets velocities are defined by three features
(1st Feature)
The planets velocities are complementary one another –means - each planet velocity is complementary with another planet velocity– means– The planets velocities are defined in pairs and not in single planets.
(Notice, the inner planets orbital inclinations are defined by the rule (v1/v2), for example, Mercury orbital inclination 7 deg = Mercury velocity 47.4/ Uranus velocity 6.8 that proves the effect of the rule (v1v2=322) on the planet motion)
Ceres velocity tells the idea - Ceres is used as the main point - as a result the outer planets be complementary with the inner planets – for that the rule (v1v2=322) controls the planets velocities- that means- The planets velocities are created based on One Design- Ceres velocity is used as the main point for this design
(2nd Feature)
Why the constant is 322? because 1160000 seconds = 322 hours – means- there's speed of light = 1.16 million km /s - Shortly
Mercury (47.4 km/s) moves during 6.8 hours a distance = 1160000 km
Uranus (6.8 km/s) moves during 47.4 hours a distance = 1160000 km And
Venus (35 km/s) moves during 2 x 4.7 hours a distance = 1160000 km
Pluto (4.7 km/s) moves during 2 x 35 hours a distance = 1160000 km
Earth (29.8 km/s) moves during 2 x 5.4 hours a distance = 1160000 km
Neptune (5.4 km/s) moves during 2 x 29.8 hours a distance = 1160000 km And
Mars (24.1 km/s) moves during 13.1 hours a distance = 1160000 km
Jupiter (13.1 km/s) moves during 24.1 hours a distance = 1160000 km And
(Notice - Saturn (9.7 km/s) moves during 33.2 hours a distance = 1160000 km - (between 33.2 and Venus velocity 35 km/s the error 5%)) (Data Max error 2%)
The Data Proves, The Planets Velocities Are Functions In The Speed 1.16 Million Km Per Second. That proves the speed (1.16 million km per second) is A Fact
(notice the planets velocities are complementary one another also based on the known speed of light 300000 km/s, the paper provides this data)
(3rd Feature)
The planets velocities limit depend on the known speed of light 300000 km/s
Let's explain that in following
The 9 planets velocities total is 176 km/s (I add the Earth moon velocity 29.8 km/s)
The 10 planets velocities total is 205.8 km/s
300000 km = 7.1 x (205.8)^2
The speed 297000 km/s (99% speed of light) causes Lorentz length contraction effect with the rate 7.1
The velocity (205.8 km/s) moves during 205.8 seconds a distance 42253 km
Where 300000 = 7.1 x 42253 km BUT 42253 = (205.8)^2
The squared value (205.8)^2 is found because of the used rate of time
We have studied this equation in point (I-5**) -the data shows, the planets velocities are defined as parts of a complete system of velocities starts from (Zero = stationary point) and reaches to the speed of light 300000 km/s and between these two values the planets velocities are defined to support this same system- that tells- the planets velocities are defined with limit to the speed of light (300000 km/s) - The data proves the speed (1.16 million km per second) is a fact -and also the data proves the coherence is done between the light (1.16 million km per second) and the light (300000 km/s)
I-9 Planets Orbits Are Defined By A Motion Its Speed = (1.16 million km /s)
(1) Mercury Motion
During 310s light its speed (1.16 million km per second) travels 360 million km
During 310 s light known speed (300000 km/s) travels 93.1 million km
BUT
93.1 million km x 2π = 586 million (this value will be used by Venus as a period)
Where 360 million km = Mercury Orbital Circumference
(2) Venus Motion
During 586s light its speed (1.16 million km per second) travels 680 million km
During 586s light known speed (300000 km/s) travels 175.8 million km
BUT
175.8 million km x 2π = 1104 million (this value should be used by Earth as a period)
680 million km = Venus Orbital Circumference
(3) Earth Motion
During 810s light its speed (1.16 million km per second) travels 940 million km
During 810s light known speed (300000 km/s) travels 243 million km
243 million km x 2π = 1526 million (this value should be used by Jupiter as a period)
Where 940 million km = Earth Orbital Circumference
BUT
During 940s light its (1.16 million km per second) travels 1104 million km (error 1%)
That shows the direction reflection between the Earth and Venus because of the reflection of energy- I proved that in point no. (**)
Notice –
Jupiter is the next planet after the Earth based on the light motion design for that the Earth value (1526 million km) should be used by Jupiter because Mars is a migrant planet and Mars original orbit was between Mercury and Venus and the next planet for the Earth was Jupiter- the confusion in data is made by Mars migration effect
(More explanation is provided in the comment on the data)
(4) Mars Motion
(Mars Is Exceptional)
During 1235s light its speed (1.16 million km per second) travels 1433 million km
During 1235s light known speed (300000 km/s) travels 371 million km = 2π x 59 mkm Where 1433 mkm = Mars Orbital Circumference
(5) Jupiter Motion
During 4224s light its speed (1.16 million km per second) travels 4900 million km
During 4224s light known speed (300000 km/s) travels 1267 million km –
4900 mkm =Jupiter Orbital Circumference
1267 million km x 2π = 7960 million km (this value be used by Saturn as a period)
Notice
Mars is a migrant planet for that – the Earth value isn't used for Mars orbit- but it's used for Jupiter orbit- and because of the reflection between Venus and the Earth- the Earth produces the value directly (1526 million km) without using the light speed (1.16 million km per second) where
1526 million km = Jupiter Orbital Distance 778.6 million km x 2 (error 2%)
Notice
During 4224s light its speed (1.16 million km per second) travels 4900 million km
4900 million km = Jupiter orbital circumference while 4222.6 hours = Mercury day period- if (one hour of Mercury = One second of light clock) that will connect Jupiter with Mercury strongly- this is a fact because- the solar system depends on Mercury clock in its motion and the planets orbits are defined based on Jupiter orbit after the planets migration- that makes Mercury and Jupiter the two heads of the solar system unified motion.
(6) Saturn Motion
During 7960s light its speed (1.16 million km per second) travels 9007 million km
During 7960s light known speed (300000 km/s) travels 2388 million km
9007 mkm = Saturn Orbital Circumference
2388 million km x 2π =15004 million km (this value be used by Uranus as a period)
(7) Uranus Motion
During 15559s light its speed (1.16 million km per second) travels 18048 million km
During 15559s light known speed (300000 km/s) travels 4668 million km
18048 mkm = Uranus Orbital Circumference
4664 million km x 2π =29305 million km (this value be used by Pluto as a period)
Notice
The transported value from Saturn is 15004 but the used value is 15559 (error 3.5%)
(8) Neptune Motion
(Neptune is exceptional)
During 24348s light its speed (1.16 million km per second) travels 28244 million km
During 24348s light known speed (300000 km/s) travels 7305 million km
28244 mkm = Neptune Orbital Circumference
(9) Pluto Motion
During 31983s light its speed (1.16 million km per second) travels 37100 million km
During 31983s light known speed (300000 km/s) travels 9595 million km
37100 mkm = Pluto Orbital Circumference
(10) The Earth Moon Motion
During 639s light its speed (1.16 million km per second) travels 724 million km
During 639s light known speed (300000 km/s) travels 191.6 million km = 2π x 30.5 mkm – BUT
30.5 mkm = 88000 km x 346.6 days
The moon displacements total during 346.6 (solar days) = 30.5 mkm
346.6 solar days= The nodal year and 88000 km ��= The moon displacement daily
742 mkm = The distance is passed by Uranus in 30589 hours - The data tells, the moon orbit regression be done by effect of Uranus motion.
THE COMMENTS ON DATA
(1)
We should note that, the data follows the rule perfectly- as we see in Mercury and Saturn data – the confusion in data is found by the planets migration – let's prove that
680 mkm (Venus Orbital Circumference) x (1.16 mkm/s) ^2 = 940 mkm
28244 mkm (Neptune Orbital Circumference) x (1.16 mkm/s) ^2 = 37100 mkm
(Max error 2.5 %)
940 mkm = Earth Orbital Circumference
37100 mkm = Pluto Orbital Circumference
Clearly the confusion of data is done for the Earth and Jupiter (Mars migration effect) and for Pluto and Neptune and Uranus (Pluto migration effect)
Shortly
The light (1.16 million km per second) created the solar system distances based on one another as the chess board distances- perfectly the light created the distances based on one geometrical design and as one network- But – The planets migration caused confusion for the data- by that the planets orbits data is confused and no longer be seen as designed by the light motion- specially because the solar system design repair needed to make Jupiter orbit as the central orbit based on which all planets orbits are modified- by that– the discovery for the light motion effect on the solar system distances creation needed deep analysis in data to remove the confusion.
Notice
The Earth data produced the value (1526 mkm) and this distance is used by Jupiter as a distance (1526 mkm = 2 x 778.6 mkm Jupiter Orbital Distance) (error 2%)
And
Uranus data produced the value (29305 mkm) and this distance is used by Neptune as a distance (29305 mkm= 28244 mkm= Neptune Orbital Circumference) (error 4%)
The behaviors are typical tell that by the same effect the modifications of both planets data are done-
Notice
680 sec x 1.16 million km /sec = 789 mkm (Jupiter orbital distance 778.6 mkm error 1.3%) – the data shows – Jupiter is the mentioned planet after the Earth because Mars original orbit was between Mercury and Venus by that the light motion moved from the Earth to Jupiter directly- Mars is not seen in this motion-
(2)
The inner planets distances ( 93.1, 175.8, 243, 370.6) can be used as cycles periods
175.8 solar days =Mercury day period
243 solar days = Venus rotation period
370.6 solar days are near to 365.25 days (error 1.5%),
(93.1 days x 2π= 584 days =the period of periodical meeting of Earth and Venus)
This equality depends on the rate 1mkm = 1 day
That tells each planet creates its PREVIOUS NEIGHBOR CYCLE PERIOD
And the outer planets distances in blue color (1267, 2330 , 4664, 7305, 9595)
2330 = 2 x 1165 = 2π x 371
4664 = 4 x 1165 = 4π x 371
7305 = 2π x 1165 =2π2 x 371
9595 = 8 x 1165 = 8 π x 371 (error 3%)
This data cornerstone is the number (371), (the Earth year 365.25 days)
The data refers to the Earth year because of the Earth effect on the sun creation
NOTICE
The data proves each planet orbit is defined based on its neighbor – my first equation (Planet orbital distance equation) proves this fact –
In following I put my planet orbital distance equation for revision
Planet Orbital Distance Equation
(My First Equation)
The equation exceptions are,
Earth depends on Mercury Not Venus – and Mars depends on Venus Not Earth And Pluto depends on Uranus Not Neptune
Note, we don't use the forma (d=2d0) instead we use the forma (d2 = 4d0 (d-d0)) because it uses the distance between the 2 planets and that decreases the errors
Let's test the equation
(1) Venus Motion
(108.2)2 = 4 x 57.9 x (50.3)
d= 108.2 million km = Venus Orbital Distance
d0= 57.9 million km = Mercury Orbital Distance
50.3 million km = The Distance Between Venus And Mercury
Venus Depends On Mercury
(2) Earth Motion
(149.6)2 = 4 x 57.9 x (149.6-57.9) (error 2.8%)
d= 149.6 million km = Earth Orbital Distance
d0= 57.9 million km = Mercury Orbital Distance
Earth depends on Mercury and doesn't on Venus
(3) Mars Motion
(227.9)2 = 4 x 108.2 x (227.9-108.2)
d= 227.9 million km = Mars Orbital Distance
d0= 108.2 million km = Venus Orbital Distance
Mars depends on Venus and doesn't on Earth
(4) Ceres Motion
(415)2 = 4 x 227.9 x (415-227.9)
d= 415 million km = Ceres Orbital Distance
d0= 227.9 million km = Mars Orbital Distance
Ceres depends on Mars
(5) Jupiter Motion
(778.6)2 = 4 x 415 x (778.6- 415)
d= 778.6 million km = Jupiter Orbital Distance
d0= 415 million km = Ceres Orbital Distance
Jupiter depends on Ceres
(6) Saturn Motion
(1433.5)2 = 4 x 778.6 x (1433.5- 778.6)
d = 1433.5 million km = Saturn Orbital Distance
d0 = 778.6 million km = Jupiter Orbital Distance
Saturn depends on Jupiter
(7) Uranus Motion
(2872.5)2 = 4 x 1433.5 x (2872.5- 1433.5)
d= 2872.5 million km = Uranus Orbital Distance
d0 = 1433.5 million km = Saturn Orbital Distance Uranus depends on Saturn
(8) Neptune Motion (error 4%)
(4495.1)2 = 4 x 2872.5 x (4495.1- 2872.5)
d= 4495.1 million km = Neptune Orbital Distance
d0 = 2872.5 million km = Uranus Orbital Distance Neptune depends on Uranus
(9) Pluto Motion
(5906)2 = 4 x 2872.5 x (5906- 2872.5)
d= 5906 mkm = Pluto Orbital Distance
d0 = 4495.1mkm = Neptune Orbital Distance Pluto depends on Uranus
Notice the error is less 1% for all planets except (Earth 2.8%) and Neptune (4%)
The Equation Discussion
(a)
The Equation tells each planet orbital distance depends on its previous neighbor planet orbital distance – but – there are 3 exceptions which are –
Earth depends on Mercury not Venus –
Mars depends on Venus not Earth–
Pluto depends on Uranus not Neptune–
(b)
The equation shows – the distance from the sun to Pluto be distributed based on one geometrical design – means – the distances be created together as one group in one a network form – the distances be similar to the chess board distances- they are distributed geometrically and in one network based on one design -
Shortly
No Single Distance be Created independently or individually – We deal with one network of distances -
Means
By Using Mercury Orbital Distance (57.9 million km) (one data) We Can Conclude All Planets Orbital Distances (9 Data) By Using Mathematical Calculations Only
(c)
Kepler stated (Planet orbit defines its velocity) – this concept is used in my third equation (d1/d2) = (v2/v1)2 where d= Planet Orbital Distance and v = Planet Velocity
The concept tells– If we know a planet orbital distance, we can conclude its velocity by mathematical calculations only
Shortly
By Using my 1st equation (d2 = 4d0 (d-d0)) and kepler law and the One Data (Mercury orbital distance = 57.9 million km) we can conclude by mathematical calculations only All Planets Orbital Distances, Velocities And Periods (27 Data)
That proves the concept (Planet data be created based on exact equations)
Planet Orbits Are Defined By Very Accurate System
Each planet orbit is defined based on an angle, these angles are reflected also – let's prove that (I suppose –There's a right triangle by the three points The Sun, Mercury and Venus) - Now
Venus angle is (61 degrees) because Venus orbital distance (108.2 mkm) x cos (61) = Venus Mercury distance (50.3 mkm) -
Here we can replace Venus with any other planet in the same triangle to define this planet angle based on similar calculation – as a result
Earth angle is (51 degrees) because Earth orbital distance (149.6 mkm) x cos (51) = Earth Mercury distance (91.7 mkm)
Mars angle is (41.7 degrees) because Mars orbital distance (227.9mkm) x cos (41.7)= Mars Mercury distance (170 mkm)
Jupiter angle is (22.2 degrees) because Jupiter orbital distance (778.6 mkm) x cos (22.2)= Jupiter Mercury distance (721 mkm)
Similar to that – Saturn angle is 16.5, Uranus angle is 11.6 deg, Neptune angle is 9.2 deg and Pluto angle is 8 deg- these angles follow the same system – for example
Pluto angle is (8 degrees) because Pluto orbital distance (5906 mkm) x cos (8)= Pluto Mercury distance (5848 mkm)
NOTICE No. (1) The right angle and its triangle is (a hypothesis) – we Can prove it because (v1/v2) = (θ1/ θ2)
means – these angles are rated with their planets velocities – for example
(Neptune velocity 5.4/ Pluto velocity 4.7) = (9.2 deg /8 deg)
Shortly -the angles which are defined based on the sun perpendicularity on Mercury orbit – all of them- are the correct angles by which the planets orbits are defined – that because the planets velocities are rated with these angles and Kepler stated (Planet orbit defines its velocity)- means- the planets orbits are defined based on these angles and that causes the angles rates to be equal with the velocities rates - Shortly -That tells indeed the sun position is perpendicular on the (inner planets orbits) – in fact – the sun is perpendicular on the Earth moon orbit- and this perpendicularity has effect on all inner planets because of the small distances among them.
I-10 Jupiter distances are defined by a motion by a speed = (1.16 million km /s) Data
(1)
(1.16 million km /s) x 300 sec = 348 mkm (300 mkm = Earth orbital distance x 2)
(1.16 million km /s) x 348 sec = 470 mkm (470 x2 = Earth Orbital Circumference)
(1.16 million km /s) x 470 sec = 551 mkm (Mars Jupiter Distance)
(1.16 million km /s) x 551 sec = 629 mkm (Earth Jupiter Distance)
(1.16 million km /s) x 629 sec = 721 mkm (Mercury Jupiter Distance)
(2)
(1.16 million km /s) x 108.2 sec x 4 = 500 mkm (108.2 = Venus orbital Distance)
(1.16 million km /s) x 500 sec = 580 mkm
(1.16 million km /s) x 580 sec = 671 mkm (Venus Jupiter Distance)
(1.16 million km /s) x 671 sec = 778.6 mkm (Jupiter Orbital Distance)
(1.16 million km /s) x 778.6 sec x 2 = 1806 mkm
(1.16 million km /s) x 1806 sec = 2094 mkm (Jupiter Uranus Distance)
(1.16 million km /s) x 2094 sec = 4900 mkm/2 (Jupiter Orb. Circumference)
(3)
(1.16 million km /s) x 5127 sec = 5906 mkm (Pluto orbital Distance)
(1.16 million km /s) x 4437 sec = 5127 mkm (Pluto Jupiter Distance)
(1.16 million km /s) x 3825 sec = 4437 mkm (Mercury Neptune Distance)
(1.16 million km /s) x 3244 sec = 3825 mkm (=π x 1205 mkm Mars Saturn Distance)
(1.16 million km /s) x2872sec=3244mkm (=2x1622 mkm Uranus Neptune Distance)
(1.16 million km /s) x4900sec=2 x 2872 mkm (Uranus Orbital Distance)
(4)
(1.16)2 x 170 sec = 227.9 mkm (Mars Orbital Distance)
Where 170 mkm = Mercury mars Distance
(5)
(1.16 million km /s) x 1980 sec = 2296.8 mkm
(1.16 million km /s) x 2296.8 sec = 2644.6 mkm (Mars Uranus Distance)
(1.16 million km /s) x 2644.5 sec = 3033.5 mkm (Uranus Pluto Distance)
1980 million km = the orbital circumferences total of (Mercury + Venus + Earth)
(6)
(1.16 million km /s) x 3717 sec = 4310 mkm (Earth Neptune Distance)
(1.16 million km /s) x 4346 sec = 5040 mkm (Jupiter Pluto Distance)
3717 mkm = Jupiter Neptune Distance –
(Earth Neptune Distance 4345mkm "error 1%" and Jupiter Pluto dis. 5127 mkm error 1.7%)
Discussion - the data tells the idea clearly, it tells
The distances in the solar system is created together based on one design and by one motion- this one motion is the light motion (1.16 million km per second) and the light creates the distance and after that the light uses the created distance as a period of time to create another distance, and by that, the light created all distances in one network together based on one geometrical design and this creation of the distances is done before any planet creation- the data clearly and strongly proves the hypothesis.
NOTICE - The total distances in the solar system (the orbital and inner distances) are 45 distances, the previous data used almost 50% of these distances (because many distances are equal in the solar group – for example – (Saturn orbital distance = Mars orbital circumference)- this distances equality makes the previous data behave in place of around 50% of all distances- and no logic to suppose these all distances are rated by the way with the rate (1.16)!!
The logical explanation is my theory I have explained- the light (1.16 million km per second) creates the distances based on one another by using the distances as periods of time - Also this behaviors is typical to the behavior of the known speed of light (300000 km/s)– as we have seen before - During 2094 seconds the light (300000 km/s) moves 629 million km (=Jupiter Earth distance) where 2094 million km (= Jupiter Uranus distance)- Simply it's typical behaviors tells the fact that the speed 1.16 million km per second is real fact and used in the solar system design)
I-11 The Solar System Geometrical Design Proves The Hypothesis
Data (1)
(A) (1.16/0.3) x 2π = 24.3
(B) 1.16 million km per second x 86400 seconds = 100733 million km
(100733 million km = The Planets Orbital Circumferences Total)
Data (2)
(a) 4224 x 1.16 =4900
(b) 100733 = π x 32200
(c) 1.1318/0.3 = 5906 / (778.6 /2)
Discussion
Data (1)
Data no. (A) - (1.16/0.3) x 2π = 24.3
By this equation the space and time are created- because it shows the coherence of light between the light (1.16 million km per second) and the light (300000 km/s)
The equation tells – the space is created in curves (2π) and the time is created in units each unit = (24 hours)
Shortly- the time essential units are 2 units (the second and 24 hours) because of the rate of time (one second of light clock = 24 hours of planet clock) by that the period of the (one second) (for light motion) is comparable with (24 hours) for planet motion that means- the period (24 hours) is one unit can't be divided and it's similar to the second period which is a unit can't be divided
Data no.(B) 1.16 million km per second x 86400 seconds = 100733 million km
The data tells the light (1.16 million km per second) moves in solar day (24 hours= 86400 seconds) a distance = 100733 million km = The Planets Orbital Circumferences Total - that proves the solar planets orbits creation is done by the motion of this light beam (1.16 million km per second) - the data proves the solar system design depends on this light motion.
Data (2)
Data no. (a) 4224 x 1.16 =4900
The data tells, the light (1.16 million km per second) moves in 4224 seconds a distance = 4900 million km = Jupiter Orbital Circumference
But – Mercury day period is 4222.6 hours (4224 hours approximately)
If (one second of light clock = one hour of Mercury clock), that will make the period (4224 s) as Mercury day period – and – we know that Mercury day period is the main period in the solar system because the sun rate of time is created based on it as I explain in the second and fourth hypotheses of this paper-
Shortly- while Mercury is the solar system head- Mercury day period is the main period in the solar system and this period is used for Jupiter orbital circumference because all planets orbits are defined based on Jupiter orbit after the planets migration- this fact is discussed in the third hypothesis is details – let's summarize it
Mars original orbit was between Mercury and Venus, and Pluto was the Mercury moon, and Pluto size was equal Mercury size- But- Mars and Pluto had migrated from their orbits- the planets migration caused serious risk for the solar system geometrical design- And Uranus provides a vertical effect on Jupiter to fix it in its orbit and prevent Jupiter to migrate with the migrant planets- after Jupiter be fixed in its orbit all other planets redefined their orbits according to Jupiter orbit – by that – Jupiter orbit be the most important distance in the solar system-
Notice- later Uranus caused to create Saturn to support Jupiter role- Saturn creation is done after the Earth moon creation because the energy reflection caused this delaying
The data shows how the solar system design depends on Jupiter orbit
Data no. (b) 100733 = π x 32200
32200 million km = the different distance between Pluto orbital circumference and Jupiter orbital circumference
100733 million km = The Planets Orbital Circumferences Total
The data supports the same idea- Jupiter and Pluto orbits create the general design of the solar system- because Jupiter is the main orbit in it and Pluto the last orbit.
Data no. (c) 1.1318/0.3 = 5906 / (778.6 x 2) where
5906 million km = Pluto orbital distance
778.6 million km = Jupiter orbital distance
1.1318 million km = Jupiter motion distance per solar day
0.3 million km = speed of light 300000 km/s
The data shows the distribution of Jupiter and Pluto orbits are in proportionality with speed of light (300000 km/s) and speed of (1.16 million km per second)
BUT the data shows Jupiter velocity daily (1.1318 million km per day) in place of the speed of light (1.16 million km per second) Why??
Another question asks (Why do all Jupiter distances depend on the speed of light 1.16 million km per second?) as we have seen in the previous proof No. (1-10)?
The story told the facts, Uranus provided effect on Jupiter and as a result Jupiter orbit be used as the main orbit in the solar system- BUT- what's this effect Uranus provided on Jupiter? What had happened really?
Uranus sent a light beam its speed (1.16 million km per second) to Jupiter for that Uranus velocity and Jupiter velocity both depends on the speed (1.16 million km per second)
Jupiter should move a distance 1.16 million km per solar day (24h) BUT Mars effect created more problems and caused Jupiter to use (Mars rotation period 24.6h) in place of the solar day and decreased the velocity with 2.5%
Uranus moves a distance 1.16 million km (in TWO solar days- error 1.3%)
The solar system basic design depends on (two seconds and not one second) as I explained in details in the fourth hypothesis of this paper- now – the system design uses two seconds in place of one second because Uranus moves the required distance 1.16 million in two days
Shortly – the force which is sent from Uranus to Jupiter was a light beam its speed 1.16 million km per second and by this force Jupiter helped the solar system and supported the planets in their orbits to prevent more migration in the solar system
I-12 The Solar System Distances Analysis Prove The Hypothesis
DATA (No. I)
50% Of All Distances In The Solar System Are Equal One Another (WHY?)
(1)
Saturn Orbital Distance = Saturn Uranus Distance =1433 million km =
= Mars Orbital Circumference
= Pluto Neptune Distance (error 1.5%)
= Pluto eccentricity Distance (error 1.5%)
= Neptune Orbital Distance/π
= Uranus Orbital Distance /2
= Mercury Jupiter Distance x 2
(2)
Neptune Orbital Distance = Saturn Pluto Distance
Jupiter Pluto Distance = Uranus Neptune Circumference
Earth Neptune Distance = Mercury Saturn Circumference (0.5%)
(3)
Jupiter Mercury Distance = 2 Mercury Orbital Circumference
Jupiter Venus Distance = Venus Orbital Circumference (1.5%)
Jupiter Earth Distance = Earth Orbital Circumference (1.2%)
(Earth and Jupiter at 2 different sides from the sun)
(4)
Jupiter Mercury Distance = Mars Orbital Distance x π (0.6%)
Jupiter Uranus Distance = Venus Jupiter Circumference (0.8%)
Pluto Orbital Distance = Earth Orbital Circumference x 2π
DISCUSSION
The data tells these distances must be created based on each other because all of them are parts in one design and one network- the data tells – it's impossible for these distances to be created univocally nor independently – but they are created by one motion based on one design and for one result.
DATA (No. II)
(778.6/721)=(721/670)= (670/629)=(1433/1325)=(1284/1205)= (2872/2644)= 1.0725
These are distances measured in millions km – let's define them
778.6, 721, 670 and 629 are the distances between Jupiter and the sun, Mercury, Venus and the Earth respectively.
1433, 1325, 1284, 1025 are the distances between Saturn and the sun, Venus, the Earth and Mars respectively.
2872 and 2644 are the distances between Uranus and the sun and Mars respectively.
MORE DATA (No. I)
629 million km (The Earth Jupiter distance)= (1.0725)^2 x 551 million km (Jupiter Mars Distance)
4495.1 million km (Neptune Orbital Distance) =1.0725 x 2 x 2094 million km (Jupiter Uranus Distance)
5906 million km (Pluto Orbital Distance) = (1.0725)^2 x 5127 million km (Jupiter Pluto Distance)
5127 million km (Jupiter Pluto Distance)= (1.0725)^2 x 4437 million km (Mercury Neptune Distance)
2.574 million km (Earth motion distance daily) = 1.0725 x 2.4 million km (TheMoon Orbital Circumference)
DISCUSSION
These distances are rated each other with (1.0725) this rate is created by Lorentz length contraction effect (as I supposed and proved)- but – regardless this rate reason the question is – How can all these distances be effected by this rate together?
That can be possible only if (these distances are parts of one design and this design is effected by this rate as a result all distances be effected together)
The data proves the distances are created together based on one design and the distances are effected together by the same one effect – shortly- these distance can NOT be independent from one another but they are one group created based on one design.
I-13 Deep Analysis For The Planets Orbits
The Light Uses Each Planet Orbital Period To Move A Distance = This Planet Orbit + All Previous Planets Orbits Total
DATA
(1)
14 x 24 x (300000 km/s) = 100.8 million km = 2 x 50.4
(2)
35.76 x 24 x (300000 km/s) = 258 million km = 149.6 + 108.2
(3)
58.1 x 24 x (300000 km/s) = 418 million km = 149.6 + (2 x 108.2) + 58
(4)
109.3 x 24 x (300000 km/s) =787 million km = 58+ 108+149.6 +2 x228 (error 2%)
(5)
687 x 24 x (300000 km/s) = 4900 million km
(6)
687 x 24 x (300000 km/s) = 4900 million km
(7)
1710 x 24 x (300000 km/s) = 12312 million km = 28244/(1.16 x2)
(8)
4868 x 24 x (300000 km/s) = 17600 million km x 2
(9)
9517 x 24 x (300000 km/s) = 68522 million km = 2 x 18048 + 32400
(10)
14413 x 24 x (300000 km/s) = 103773 million km
DISCUSSION
The data shows the rule (Planet Orbital Period "days"/2π) x 24 x Speed Of Light (300000 km/s) = A Distance = This Planet Orbital Circumference + All Previous Planets Orbital Circumferences Total – let's prove this rule in following
(1) Pluto Data
90560 days (Pluto orbital period) /(2π) = 14413 days
14413 x 24 x 300000 km/s = 103773 million km
The planets orbital circumferences total is 100733 million km
Between 103773 mkm and 100733 mkm the error is (3%)
Pluto follows the rule perfectly- the light passes a distance = Pluto orbital circumference + all previous planets orbital circumferences = the planets orbital circumferences total
(2) Neptune Data
59800 days (Neptune orbital period) /(2π) = 9517 days
9517 x 24 x 300000 km/s = 68526 million km = (2 x 18048) + 32400
The distance 2 x 18048 million km = all planets orbital circumferences total before Neptune
32400 mkm = 1.16 mkm/s x 28244 seconds
28244 million km = Neptune orbital circumference
Neptune follows the rule perfectly but because of the energy reflection the speed (1.16 mkm/s) is used one additional time- clearly we see Neptune follows perfectly the rule
(3) Uranus Data
30589 days (Uranus orbital period) /(2π) = 4868 days
4868 x 24 x 300000 km/s = 17600 million km x 2
18048 million km (Uranus Orbital Circumference) (error 2.5%)
Uranus follows the rule perfectly because Uranus orbital circumference =18048 mkm and all previous planets orbital circumferences total is = 18048 mkm
(4) Saturn Data
10747 days (Saturn orbital period) /(2π) = 1710 days
1710 x 24 x 300000 km/s = 12312 million km
Jupiter orbit (4900) + Saturn orbit (9000) = 14000 million km
Light (1.16 million km/s) x 12312 seconds = 14282 million km
Means
The value (12312) equal (Jupiter orbital circumference)+Saturn orbital circumference
But the reflection of energy uses the speed of light (1.16) to have effect on the data
That tells Saturn follows the rule
Notice
12312 sec x 1.16 mkm/s = 14282 mkm = 28244 mkm/2
28244 mkm = Neptune orbital circumference – that tells the confusion in Saturn data is done by Neptune orbit effect
Notice
We see the speed of light (1.16 mkm/s) has effect on Saturn data by division (12312 = 14282/1.16) but in Neptune data we have seen the speed of light (1.16 mkm/s) has effect by multiplication (28244 x 1.16 = 32400)
That tells we have opposite positions between (Neptune and Saturn) and the light connects them together by one motion-
The data tells simply (A x 1.16 and B/1.16) this is effect of one light beam motion through both points.
(6) Jupiter Data
4331 days (Jupiter orbital period) /(2π) = 687 days
687 x 24 x 300000 km/s = 4900 million km
Jupiter orbital circumference = 4900 million km
The distance equal Jupiter orbital circumference only without the previous planets BUT - The inner planets orbital circumferences total be = 4900 million km
Let's prove that
360 (Mercury) + 680 (Venus) +940 (Earth) + 1433 (Mars) = 3413 million km
4900 million km – 3413 million km = 1433 million km
That tells – the data supposes the Earth moon orbital circumference around the sun = Mars orbital circumference = 1433 million km
By that 360 + 680 +940 + 1433 + 1433 = 4846 million km = Jupiter orbital circumference (4900 mkm) (error 1%)
(7)Mars Data
687 days (Mars orbital period) /(2π) = 109.3 days
109.3 x 24 x 300000 km/s = 787 million km = Jupiter orbital distance 778.6 million km (error 2%)
778.6 million km= 57.9 mkm + 108.2 mkm + 149.6 mkm + 227.9 mkm+ 227.9 mkm
Means- Mars Value (787 = 778 = the four inner planets orbital distances total + the Earth moon orbital distance to the sun (which is considered = Mars orbital distance)
Here the value provided the distances total and not the circumferences total
But Mars follows the rule perfectly because
The value (778) = the 5 planets orbital distances total
(8)Earth Data
365.25 days (Earth orbital period) /(2π) = 58.1 days
58.1 x 24 x 300000 km/s = 418 million km = 149.6 mkm (Earth orbital distance) + 2 x 108.2 mkm (Venus orbital distance) + 57.9 mkm (Mercury orbital distance)
The Earth follows the rule- the modification can be done by the moon effect on the earth motion.
(9)Venus Data
224.7 days (Earth orbital period) /(2π) = 35.76 days
35.76 x 24 x (300000 km/s)= 258 million km = 149.6 mkm (Earth orbital distance)+ 108.2 mkm (Venus orbital distance)
(10)Mercury Data
88 days (Earth orbital period) /(2π) = 14 days
14 x 24 x (300000 km/s) = 100.8 million km = 2 x 50.4
50.4 million km = Mercury Venus Distance
The Comment On The Data
(1)
We notice a deep interaction between Mars and Jupiter where Jupiter orbital period (4331 days /2π)= 687 days (Mars orbital period)
And Mars value (109.3 days) enables the light to pass a distance 778.6 mkm
109.3 x 24 x 300000 km/s = 778.6 million km (Jupiter orbital distance)
That shows deep interaction between Mars and Jupiter which is logical behavior because Mars is a migrant planet and Mars created an interaction with Jupiter to enable Mars to stay in its New orbit and prevent any more migration.
(2)
Mars orbital period 687 days = 88 (Mercury) + 224.7 (Venus) + 365.25 (Earth)
(error 1.5%)
Notice - 551 mkm (Mars Jupiter distance) = 57.9 mkm (Mercury orbital distance) + 108.2 mkm (Venus orbital distance) + 149.6 mkm (Earth orbital distance) + 227.9 mkm (Mars orbital distance) (error 1.5%)
(3)
The data shows very important fact
The data tells that (The Light Motion Is The Main Player Behind All Data)
Let's use the sea water as example
The sea water motion is the main player behind the sea waves, the ship sailing, the fish swimming and the cause for any motion in the sea - Different forms of motions in the sea we can discover but the motion reason and motor is the same one reason and motor – This is the useful result of this data- it's simply a major proof for my theory- the light motion is the reason behind all planets motions and data-
Notice - Why Is The Planets Data Analysis Method Important?
The planets data analysis makes some anatomy for the planets data, by that, we can know how this planet data is created and what geometrical reason caused to create this data- the planets data analysis also enable us to discover if a planet violates a rule used by the other planets- and it shows the geometrical reason behind this violation-
1-14 Light defines each planet orbital period
The light defines each planet orbital period based on this planet diameter
Data
142984 s x (0.3)^2 = 12868 = π x 4331 (error 5%)
120536 s x (0.3)^2 = 10747
51118 s x (0.3) = 30589/2
49528 s x (0.3)^2 = 4457
7510 s x (0.3) x 4π^2 = 88945 (= 90560 error 1.8%) (notice 7510 x 4π^2 =296483)
6792 s x (0.3)^2 = 611
7510 s x (0.3)^2 = 676 = 687 (error 1.5%)
12756 s x (0.3)^2 = 1148 = π x 365.25
12104 s x (0.3)^2 = 1089 = (π^2)/2 x 224.7
4879 s x (0.3)^2 = 439 = (π^2)/2 x 88
Notice
7070 s x (0.3)^2 = 637 = 687 / 1.0725
Where
(1)
The left side data is the planets diameters, in details
142984 km, 120536 km, 51118 km, 49528 km and 7510 km are the diameters of (Jupiter, Saturn, Uranus and Neptune respectively and 7510km =Pluto circumference)
And
6792 km, 12756 km, 12014 km and 4879 km are the diameters of (Mars, Earth, Venus and Mercury respectively) – all diameters are used as periods of time with the rate (1 km = 1 second) - The periods are used by light known speed (300000 km/s)
(2)
The right side is the planets orbital periods
12868 = π x 4331 (error 5%) (4331 days = Jupiter orbital period)
10747 days = Saturn orbital period
30589 days = Uranus orbital period
90560 days = Pluto orbital period
Notice
4457 million km = Neptune orbital distance
That shows Neptune produced its orbital distance in place of its orbital period based on the same rule proves that Neptune is found on the opposite direction to the other planets.
687 days = Mars orbital period (with 611 the error 12%)!
1148 days = π x 365.25 days (Earth Orbital Period)
1089 days = (π^2)/2 x 224.7 days (Venus Orbital Period)
439 = (π^2)/2 x 88 days (Mercury Orbital Period)
Notice
7070 s x (0.3)^2 = 637 = 687 / 1.0725
7070 km was Mars original diameter before its migration- and the rate 1.0725 is found by Lorentz length contraction effect.
The Comment On The Data
The data shows the following
Light Motion Connects Each Planet Diameter With Its Orbital Period
The equation modifications can NOT refute the theory because the modifications depend on geometrical constant as (π), or depend on the using of (C) or (C^2)- these values can't be considered new values nor change the rule because they are geometrical constants which shows modifications are done for the energy- for example- the energy reflection causes to square the speed, by that, the planets which us (C) have no reflection of energy but the planets use (C^2) are suffered from the energy reflection- Shortly- the modifications can't refute the theory- means- the data tells – planet orbital period is defined based on this planet diameter by effect of the speed of light
I-15 Can Planet Diameter Be Used As A Period Of Time
DATA
Jupiter (13.1 km/s) moves during 10921 s a distance = 142984 km = Jupiter diameter
Uranus (6.8 km/s) moves during 7510 s a distance =51118 km = Uranus diameter
Pluto (4.7 km/s) moves during 10921 s a distance =51118 km = Uranus diameter
Pluto (4.7 km/s) moves during 51118 s a distance =2 x 102536 km = Saturn diameter
Pluto (4.7 km/s) moves during 2 x 120536 s a distance =1.1318 mkm
(1.13184 mkm = Jupiter motion distance per solar day)
Where
10921 km = The Moon Circumference
7510 km = Pluto Circumference
The data shows the planets diameters are used as periods of time (for planets motions) also and not only for light motion – the fact is proved simply
The Comment On The Data
(1)
My planet diameter equation proves that planet diameter is created as a period of time because the diameter is created as a function in this planet rotation period.
(2)
The previous data is example of many similar which proves the planet diameter is used as period of time.
(3)
How can the planet diameter be used as a period of time?
Planet diameter is used as a period to define another planet diameter-
The idea is that- the solar system is created from one motion (the original light beam motion)- by this one motion all planets diameters are created for that each planet diameter defines the next planet diameter.
(CONT)
Gerges Francis Tawdrous +201022532292
Physics Department- Physics & Mathematics Faculty
Peoples' Friendship university of Russia – Moscow (2010-2013)
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#studyblr#notes#math#maths#mathblr#math notes#maths notes#trig#trig notes#trigonometry#trigonometry notes#common triangle formulas#triangle formulas#formulas for triangles#triangle formulae#formulae for triangles#sine#tangent#cosine#sin#tan#cos#pythagorean theorem#theorems#mathematical theorems#pythagoras
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drawing in math class ✨
Finished work early and was also bored of just sitting there so I decided to draw Akira since I haven't given her much lately lol
and definitely not also because shes my only OC I actually memorized the design 💀
I have basically come up with my own Chibi style now as well and Im obsessed with drawing characters that way
#bored#demon slayer oc#cute#avoiding sleep#demon slayer#drawing#traditional art#Drawing on math notes again lol#chibi art#not looking forward to doing trig after this..
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Guys. Guys. Guys.
I'm losing my "good at math gay" card 😔
#15.79% on my unit test for limits and continuity#legitimately i got two questions right. one was a guess. and one mark was basically free.#the one question i did of my own wonderful and capable mind was about a trig function i literally only learned from a singular example#that was on my notes like three weeks ago#so theres that ig#anywayssss at least im feeling confident about derivatives so far <3#(im screwed)#alers random thots#math
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Amazing that math feels so cool and satisfying when you gradually figure out how to work through a problem and completely emotionally disabling when you (i) dont understand any part of it
#text tag#I felt pretty good about my trig midterm today and Im soo smart for working out several very simple puzzles that i had no notes on
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Born to play Spider-Man Remastered, forced to do school work (stupid school work at that, what the hell sort of math class makes people do presentations???)
#literally#my math professor is making us create presentations about some of the stuff we’re going to go over#even though it’s not even the second month of the semester and half the topics are stuff no one knows anything about#I was LUCKY to snag basic right triangle trig#I love trig so it’ll be fairly simple for me but still there are people in my class who will have to do super advanced calculus stuff#despite not knowing anything about it#and we’re supposed to present in a way that actually teaches at a precalc level#basically my teacher is using us to make her notes for later on#which I think is ridiculous and lazy#I have NEVER been in a math class where I’ve had to give a presentation#I’m not adding any relevant tags this is just a rant basically#college struggles#I guess
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I will happily steal ur identity and make a long flight to take ur ecology exam if u do the same for me & my trig exam 👁️
-rune (genuine offer)
rune please . ill even pay for the ticket
#it should be illegal to schedule two exams on the same day#i write one final at 9am and then another one at 7pm both of them three hrs long....KILL ME!!!!#askbox#rune#send me ur trig questions if i have notes i can send if that helps maybe???
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I really wanna settle on a name for people to call me actually but I'm so unsure. That would also influence my talking tag, because maybe then I'd finally make myself one... but like because of my trashfire brain it's so hard to settle on anything.
I'm okay with my given name. The connotations of it fit me. But sometimes it still makes me feel as though I'm being treated with distance. The short form is okay too, that's what my people on insta have agreed to call me. But sometimes it goes on my nerves because of how cutesy it is.
Then there's Zefyrinus, which I'd probably just shorten to Zef. That's the name I chose for myself for my confirmation. Choosing it made me feel powerful because it defied their expectations
Then there's Cain... it really resonates with me but I first conciously registered the name through a webcomic character. Which makes me a bit embarrassed about using it.
Simon or some variation of it would be possible as well, or something like Nathaniel.
Shiny... one of my oldest nicks, because of how I used to do shiny hunting as a hobby, and it's becoming increasingly harder for me to hear because there's so many bad memories attached to it and more are added to the pile with each passing day. It's gonna stay with me, but unless I change my mind I don't want people to call me that anymore.
There's also the possibilty of using Saru as a name, but the question is, do I REALLY want that...
This is all. In conclusion I don't think I'm settling this dilemma any time soon. Maybe getting called Feisaru is good enough after all
#atticus is a nice but really ancient name too#name debate#ohh this reminds me of#what i think sarus relationship w his name is#i personally think he didnt like his given name#i think hearing saryuu might remind him of bad things and feeling helpless#when somebody calls him that without warning i mean. when he himself mentions it to someone hes fully prepared and therefore it doesn't trig#ger anything#he started calling himself saru after something snapped inside him and he knew he wanted to take revenge for all this#it was like inventing a new man#seperating weak scared saryuu from emperor saru#his emperor persona all by itself was an act#he was never fully himself. he acted like the self-sufficient powerhouse of a leader that others wanted to see#but it helped him feel in control for some time#meh i should make full fledged analysis in my notes instead of here#i hope nobody sees this
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bad
Who made trig I need to kill them
#was half tempted to reblog the 'someone popular reblogged my trig post' post again because my notes have been being flooded all day. jelp me#this post is like the kid i didnt want and now i'm stuck with it while my friend doesn't even have to pay child support
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at least i didnt have 5 SECTIONS of math homework this week
#cro zone#i like my math class alright but i spent TWO WHOLE DAYS last weekend on inverse trig functions#this week i just had a lot of notes to take
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Applying Rolle's Theorem with Trigonometry [Ex. 1]
Patreon
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Kind Regards
Can A Light Beam Its Speed 1.16 million km per second Be Found? (Revised)
or
or
or
Abstract
The paper provides 4 hypotheses with their explanations and proves – let's provide them in following
Paper hypotheses
Hypothesis No. (1)
The space is created from one energy and this energy is provided by a light beam moves by a speed 1.16 million km per second – the speed is registered in the created space proves the speed is a fact.
Hypothesis No. (2)
The Gravitational Waves Are Produced By The Planets Motions Energies And Not By The Sun Gravitational Field– Moreover- The Sun Does NOT Produce A Gravitational Field And It Has No Massive Gravity-
Hypothesis No. (3)
Mars original orbit was between Mercury and Venus and Pluto was The Mercury Moon (Pluto size was equal Mercury size) But these two planets had migrated from their original orbits as a result for a collision- the planets migration caused a risk for the solar system geometrical design- Uranus and Jupiter the Two planets worked to repair the solar system design– that caused Jupiter orbit to be the main orbit in the solar system design- Jupiter orbit proves the speed 1.16 million km per second is a fact.
Hypothesis No. (4)
The Sun Is a phenomenon created by the planets motions
The sun rays is created from the gravitational waves motions energies and the gravitational waves are produced by the planets motions energies-
Based on that
The Sun Is A Phenomenon Created By The Planets Motions
And
The Sun Is NOT Doing Nuclear Fusion To Produce Its Rays- instead- The Planets Motions Energies Total Is Used To Produce The Sun Rays
The Sun Is Created After All Planets Creation And Motion – means
The Planets Are Created And Moving In Their Orbits Around A Point Of Space Before The Sun Creation- And The Sun Is Created On This Point Of Space around which the planets revolve - And
No Planet moves by The Sun Gravity (Newton is Wrong) - And
The Sun Doesn't Produce A Gravitational Field (Einstein Is Wrong)
And
The Sun Is A Phenomenon Created By The Planets Motions– means-The Sun creation and death depends on a cycle – means – after this current sun death another sun will be created for the solar system.
The Hypotheses Explanation
The abstract provides the hypotheses explanation and the paper provides their proves and discussions- In following the hypotheses will be explained in details
NOTICE - The creatures and all matters on the Earth are created from the sun light energy and the sun light speed is 300000 km/s, because of that, the creature realization is limited to the speed 300000 km/s and can't realize the original speed (1.16 million km per second) that means the speed 300000 km/s is a limit for the creatures realization and not for the universe design.
Notice- this revised version adds only more proves for the paper first hypothesis-
Hypothesis No. (1)
The space is created from an energy and this energy is provided by a light beam moves by a speed 1.16 million km per second – the speed is registered in the created space which proves the speed is a fact
The Hypothesis Explanation
I- The Space Is Created By One Light Beam Energy- And This Light Beam Speed Is 1.16 million km per second
I-1 Preface (the main idea)
I-2 The Space Creation Method (the distances are one network)
I-3 Light Coherence between light (1.16 million km /s) and light (300000 km/s)
I-4 The Matter definition (based on my planet diameter equation)
I-5 The Planets Creation
I-6 Can The Time Machine Be A Fact?
The Hypothesis Proves
I-7 The Proves Logic Analysis
I-8 Planet Velocity Is A Function In A Speed = (1.16 million km /s)
I-9 Planets Orbits Are Defined By A Motion Its Speed = (1.16 million km /s)
I-10 Jupiter distances are defined by a motion by a speed = (1.16 million km /s)
I-11 The Solar System Geometrical Design Proves The Hypothesis
I-12 The Solar System Distances Analysis Prove The Hypothesis
I-13 Deep Analysis For The Planets Orbits
1-14 Light defines each planet orbital period
I-15 Can Planet Diameter Be Used As A Period Of Time
I-16 Mercury Orbit Analysis
I-1 Preface (The Main Idea)
The solar system (planets and distances) is created from one energy and this energy is provided by one light beam and this light beam moves by speed (1.16 million km/s)
The space is created before the planets creation-
Let's write the whole story in following
The light beam (1.16 million km per second) started its motion from Mercury orbit moves toward Pluto orbit– by that– we consider Mercury orbit is the origin point-
Now- we should notice- No planet is created yet- the motion from Mercury orbit to Pluto orbit defines the motion direction- and No planet is created before this motion end nor during this motion- the planets will be created after this motion is finished means when the light 1.16 million km per second reaches to Pluto (orbit)- after this event – the planets will be created –as I will explain later
Notice
The light (1.16 million km per second) creates the distances by its motion- means- the light moves from Mercury point to Venus point– the distance from Mercury to Venus was not found and is created only by the light motion through it for first time- means – before the light motion this distance was NOT found- It's found after the light moves through this distance for first time-
This is similar to the blood motion through the arteries, the blood creates these arteries and the blood moves through these arteries, but the blood created these arteries with its first motion and that needed energy- but – after the arteries creation the blood move through them without any energy is required- means- the first motion is the most important one because by it the arteries are created
Shortly- The space is created from the energy of this light beam its speed 1.16 million km per second – NOW- after the Space creation- the light beam energy is decreased because of the energy consumption in the space creation process- and the rest energy is one light beam its speed is (C=300000 km/s =the light known speed) – But - We understand that- it's the same one light beam- its speed was 1.16 million km /s before the space creation- and the light created the space and that caused to consume the light energy and that caused to decrease the light speed to be 300000 km/s
Shortly- the light beam started its motion from Mercury (orbit) with speed 1.16 million km /s and reaches to Pluto (orbit) with a speed 300000 km/s because of the energy consumption in the space creation process
Let's give example to explain this idea
Imagine we create A Sea Of Water- we use energy to create this sea of water- now we have some energy and we use this energy to create this sea of water- BUT- our energy is NOT spent completely But there's a small part still rest with us – this small part of energy is used to create one wave moves through this sea and this wave speed is 300000 km/s (I suppose the space is similar to the sea of water)
Now – the rest energy is found in one light beam its speed 300000 km/s and this light beam is found NOW in Pluto Orbit – and this light beam will be reflected from Pluto orbit toward the inner planets– means- the rest energy will move in the reflected direction to the original light motion direction.
This idea will be explained in details in the next point- shortly
The light beam (300000 km/s) will be reflected from Pluto toward the inner planets
AND the light 300000 km/s will meet the original light beam (1.16 million km per second) in the origin point (in fact – beside the origin point) and there's a coherence of light is done between the light beam (300000 km/s) and the light beam (1.16 million km per second) – this coherence of light is proved strongly- we have to ask (how can that be possible while the light beam 1.16 million km /s is consumed and the new light beam 300000 km/s is the rest energy? how this light beam (300000 km/s) can meet the original one (1.16 million km per second)? in points no. (I-3) and no.(I-6) I answer this question.
Notice (1) I suppose the rest energy is a light beam its speed is (C=300000 km/s) but this idea is for simplicity- the rest energy can be in any wave form its speed (C=300000 km/s) – no necessity to be in visible light beam form
It's simply energy moves by the known speed of light (C=300000 km/s)
Notice (2)
All Planets Orbits Are Defined Before Any Planet Creation-
The light used the distance from the sun to Pluto as one area and create one geometrical design for this area before any planet creation
Notice (3)
The planets are created from the rest energy its speed (300000 km/s) – means- the space is created by the light 1.16 million km per second and the energy is consumed in the space creation and the rest energy is one light beam its speed 300000 km/s (or one wave moves by the known speed of light C=300000 km/s) – the solar planets are created from this one wave its speed 300000 km/s and that means all planets orbit are created and defined before any planet creation
Notice (4)
The Sun Is Created After All Planets Creations And Motions
The sun is a phenomenon created by the planets motions energies total
The sun doesn't produce a gravitational field and doesn't have massive gravity
Logically – No planet moves by the sun gravity
(The Planet Moves With The Energy From Which The Planet Is Created – Newton is wrong- later we discuss the proves)
Notice (5)
The child (fetus) inside his mother is created by the blood motion- the blood motion creates arteries for this child and through these arteries the blood moves also but the arteries themselves are created by this same blood motion- Similar to that- the distances are created by the light motion energy and the light moves through these distances also but originally these distances themselves are created by the light motion energy- means the distances creation is done with the first time of the light motion through them - that required energy- but after the distances are created no more energy is required- the light (or planet) can pass simply through these distances
I-2 The Space Creation Method (the distances are one network)
Data
778.6 = 1.16 x 671
721 = 1.16 x 621
629 = 1.16 x 543
543 = 1.16 x 468
5906 = 1.16 x 5127
These numbers are distances in (million km)
778.6, 721, 671, 629, 551 are Jupiter distances to the sun, Mercury, Venus, Earth and Mars respectively- 5906 and 5127 Pluto distances to the sun and Jupiter respectively
468 = 936 /2 where (940 million km = the Earth orbital circumference)
Discussion
(1)
The previous data tells us how the light beam motion creates the distances-
Simply the light uses a distance as (a period of time) and travels through this period another distance- that can be understood clearly from Jupiter distances- let's look deeply as possible
The light beam (1.16 million km per second) uses the period 629 seconds to pass a new distance = 729 million km (Mercury Jupiter distance is 721 million km error 1%) – where 629 million km = Jupiter Earth distance
Also
The light beam (1.16 million km per second) uses the period 671 seconds to pas a new distance =778.6 million km (Jupiter orbital distance)
where 671 million km = Jupiter Venus distance
by this method the light creates the distances based on each other- and that makes all distances to be created depends on one another and that makes all distances in the solar system to be One Network where all distances are created based on the same One Geometrical Design
(2)
The data shows the creation method- and we understand that- the distance 551 million km (Jupiter Mars Distance) is created firstly and the light (1.16 mkm/s) used this distance as a period of time (551 sec) and the light travels during this period a distance =(639 million km where 629 million km is Jupiter Earth distance error 1.5%) and then the light uses the new distance (629 mkm) as a period of time (629 sec) and the light travels during this period a distance = (729 million km – where 721 million km = Mercury Jupiter distance – error 1%)
The data shows the method clearly and we understand the light original motion started from Mercury orbit to Pluto orbit because the distances are created based on one another in that direction of motion as explained clearly
(3)
New data NO. (1)
2723 sec x 2 x 300000 km/s = 1622 million km – where
2723 million km = Uranus Earth Distance
1622 million km = Uranus Neptune Distance
The data shows- the light beam its speed (C=300000 km/s) is in proportionality also with the created distances but this proportionally is found in Reflected Direction
Logically, The light can NOT move from Uranus to Neptune and after that the light returns to move from Uranus to the Earth- it's simply reflected direction
The distances are NOT created by the motion of this light beam (300000 km/s) – but the distances are created by the motion of the original light beam (1.16 million km per second) but the proportionality between the distances with the light (300000 km/s) is found because there's a proportionality between the original one (1.16 million km per second) and this light beam (300000 km/s) – AND
Because the light (300000 km/s) moves in the reflected direction of the original light beam (1.16 million km per second) that causes the proportionality between the distances and the light (300000 km/s) be in a reflected form
New data NO. (2)
2094 sec x 300000 km/s = 629 million km
2094 million km = Uranus Jupiter distance
629 million km = Earth Jupiter distance
The light (300000 km/s) moves in reflected direction- for that- the distance 2094 million km is used as a period of time to pass a new distance (629 mkm)
The data proves the idea clearly
Notice (1)
The proportionality between the light (1.16 million km/s) and the light (300000km/s) will be discussed in point no. (I-3)
Notice (2)
In Point (**) I prove the gravitational waves are produced by the planets motions energies- and I prove that – the planets motions energies move toward Pluto and this energy is reflected from Pluto toward Venus- this fact is proved by powerful data and proves- for that – I don't explain in details the light motion trajectory from Pluto toward the inner planets because this motion trajectory is studied in details in the hypothesis No. (2) of this discussion- understandable that- the planets motions energy trajectory is the same trajectory the light moves through it – means this trajectory is studied in details and powerful proves in point no. (**)
Notice (3)
Jupiter Distances Analysis shows that Jupiter orbit is the central orbit for the light (1.16 million km per second) based on which all planets orbits are defined.
But – this is not the first creation case –
The light (1.16 million km per second) created the planets orbits based on each other starting from Mercury orbit moves toward Pluto orbit – this is the fist creation case – and this fact is proved strongly in point no. (I-9*)
BUT
Mars had migrated from its original orbit (Mars original orbit was between Mercury and Venus) and Pluto had migrated also (Pluto Was The Mercury Moon revolves around Mercury and Pluto size was equal Mercury size)
The planets migration caused a serious risk for the solar system geometrical design- Uranus was the first planet tried to repair the solar system geometrical design and to save it- by that
Uranus created a vertical effect on Jupiter orbit to fix Jupiter in its orbit and prevent it to migrate with the migrant planets- and based on Jupiter orbit the other planets orbits are modified – that supported the solar system original design and saved it which causes to protect the geometrical design from the destruction.
As a result
That causes Jupiter orbit to be the most important orbit in the solar system- the paper third hypothesis explains the planets migration and Jupiter orbit analysis is done with the solar system design analysis (I-11*)
I-3 Light Coherence between light (1.16 million km /s) and light (300000 km/s)
(1)
The Coherence Of Light
The previous explanation told us that we have 2 light beams-
The original light beam its speed (1.16 million km per second) and it started its motion from Mercury orbit to Pluto orbit (where Mercury orbit is the light motion origin point) – and this light beam created all distances in the solar system and lost its energy in the space creation process and the rest energy is one light beam its speed is (C=300000 km/s)
The other light beam is the rest energy- its speed is (C=300000 km/s) and it moves in a reflected direction from Pluto toward Venus and Mercury-
Now – we have a coherence of light between these two light beams- the coherence is proved by powerful proves BUT firstly we have to ask (how can this coherence be occurred)? Because the original light (1.16 million km/s) is consumed and its energy is used already and the rest energy is this light its speed is (300000 km/s) - HOW can the light (1.16 million km/s) meet the light (300000 km/s)??
Imagine we have (116 dollars) and we spent all money except (30 dollars)- how can this (30 dollars) meet the original money (116 dollars)??
Let's write the answer
Suppose the light beam (300000 km/s) moves in the reflected direction (in the space) and also (in the time) – that can enable the light (300000 km/s) to meet the original one (1.16 million km/s) in the past and the coherence will be done there in the past- and we see the coherence results and effects on the solar system -
Means – the light (300000 km/s) moves into the past and found the original light (1.16 million km/s) in the past
Notice No. (1)
The original light beam (1.16 million km/s) can NOT move toward the future to meet the light (300000 km/s) because in the future the original light beam (1.16 million km/s) is NOT found –by that – the coherence can't be occurred in the future - But – the light (300000 km/s) can move into the past because this light beam (300000 km/s) was found in the past because it's a part of the original light beam (1.16 million km/s)
Notice no. (2)
I prove the coherence is done by powerful proves- that tells- this idea is a fact–means- there's a strong proof tells (in fact the light beam 300000 km/s moved into the past) and if we can use this feature practically we can get photos from the past events and by that we can have photos from the catastrophe which killed the dinosaurs and know much better about what had happened really in that time - This can be a real machine of time – the light motion into the past is a strong method to perform this invention.
Notice no. (3)
Why Can NOT We Move Into The Past As We Move Into The Future?
This question is answered in point no. (**)
(2)
The Light Coherence Proves
First Proof
The planets order is typical to the interference of Young –
In the double slits experiment, Young Interference is consisted of bright fringes and dark fringes - If we consider planet diameter is equivalent to bright fringe – we will see that- the planets order is typically to Young interference because
Jupiter (the greatest fringe) is in the middle and the fringes width is decreased gradually on both sides – typically to the planets order
Notice / I have proved that (Mars original orbit was between Mercury and Venus) if we restore Mars to its original orbit the order will be typical to the Young Interference
(I prove this fact in point no. **)
Second Proof
The planets velocities are defined based on the speed (1.16 million km per second) and the planets velocities analysis shows the speed (300000 km/s) is the planets motions limit- means- the planets velocities are defined based on both velocities (1.16 million km per second) and (300000 km/s) I prove this fact in point No. (**)
Third Proof
The light coherence defines the solar day period (24 hours) which is the solar system design cornerstone
(1.16 /0.3) x 2π = 24.3
By this equation the space and time are created- the equation tells–the space is created in curves (2π) and the time is created in units each unit is (24 hours)
Please note – the solar system geometrical design depends on the light motion in a solar day (24 hours = 86400 seconds)
The light (1.16 million km per second) moves in a solar day (86400 seconds) a distance = 100733 million km (= the planets orbital circumferences total)
Fourth Proof
The planets data prove there's a speed (1.16 million km per second) found in the solar system but the sun light beam moves by speed (300000 km/s) that tells the two speeds are facts and found in the solar system and the coherence between them is a logical result
The hypothesis proves discuss many powerful proves for this fact-
Notice- the coherence of light is a very important fact because it tells the light (300000 km/s) moved into the past and by that gives us a proof for the motion on the time axis- for that – many powerful proves support this fact.
I-4 The Matter definition (Based On My Planet Diameter Equation)
(1)
Let's remember my planet diameter equation
Planet Diameter Equation (v1/v2)= (s/r)= I
v = Planet Velocity
r = Planet Diameter
s= Planet Rotation Periods Number In Its Orbital Period
I= Planet Orbital Inclination (example, 1.8 degrees be produced as a rate 1.8)
v2, s, r and I are belonged to one planet and v1 is belonged to another planet
The planet (v1) is defined by test the minimum error
Earth Equation uses Neptune velocity
Mars Equation uses Pluto velocity
Jupiter Equation uses the Earth moon velocity
Saturn Equation uses Mars velocity
Uranus Equation uses Neptune velocity (As Earth)
Neptune Equation uses Saturn velocity
Pluto Equation uses the Earth moon velocity (As Jupiter)
(The Equation works from The Earth To Pluto) (the discussion explains the reason)
Example
Neptune Equation (89143 /49528) = 9.7/ 5.4 =1.8
89143 = Neptune rotation periods number in Neptune orbital period
49528 km = Neptune diameter
9.7 km/s = Saturn velocity
5.4 km/s = Neptune velocity
59800 days = Neptune orbital period (and Neptune rotation period =16.1 hours)
1.8 degrees = Neptune Orbital Inclination
(the equation is proved and discussed in details in point no. **)
(2)
Can We Define The Matter Nature Based On My Planet Diameter Equation?
The equation tells, the matter is created based on its motion! means Neptune diameter is 49528 km because Neptune velocity is 5.4 km/s!!
That tells the motion with velocity 5.4 km/s is defined before Neptune diameter is created! Can we understand such definition for the matter nature? let's try
(A)
The Matter Nature
The space and matter are created from the same original energy and they move with this original energy motion- BUT the matter has a distinguish picture and different velocity from the space picture and velocity (notice- The Gravitational Waves Prove That The Space Has A Motion)
If we suppose the space is similar to the sea of water, the matter be similar to a whirlpool or a vortex found on the sea page- means- the matter is a geometrical design has a distinguish picture from the space- as the whirlpool, it's created from the sea water but it has a distinguish picture from the sea waves picture
Means
The whirlpool is carried by the waves motion- and- the matter is carried by its original energy and moves with it- No Mass gravity is required for the matter motion- means- the matter is MOVABLE by nature.
Also
The whirlpool dimensions are defined by the water motion - for example- we have a whirlpool its diameter is (2 meters)- this diameter is defined by the sea water motion features (velocity, pressure and other motion features) by that- the water motion analysis explains how the whirlpool dimensions are created
Also- the whirlpool is created but the creation requirements are needed every day- means- even if this whirlpool is found since years it can be changed immediately if the water motion features are changed- means- the whirlpool creation process is NOT a historical one.
Also- the matter is similar to a creature muscle, the muscle is found based on the blood motion and without this motion the muscle can be changed or removed.
Shortly
The Original Energy Was Found In Motion By Itself (As Moving Light Beam)
From This Moving Energy The Planet Matter Is Created
The Created matter dimensions are defined by the features of this original energy motion (means the planet creation data is defined by the energy motion features)
After the planet creation- The Planet Moves With This Original Energy – means- the created planet moves a motion depending on the motion of this original energy because the planet moves with this original energy motion- and – the planet moves by this original energy motion (No mass gravity is required to cause the matter motion)
The planet creation data is in full harmony with its motion features- this fact is produced logically because the planet data is defined by the original energy motion features.
This explanation tells (Neptune diameter is 49528 km because Neptune velocity is 5.4 km/s)
Example For Explanation
We agreed that the space is similar to the sea of water and the planet (matter) is similar to a whirlpool found on the sea page- this picture explains the idea clearly- because
We see the whirlpool doesn't move by the sea water waves velocity but by another velocity and that shows a distinguish in form and motion between the whirlpool (the planet) and the sea waves (the space)- BUT- the whirlpool dimensions are defined based on the sea water motion features- and if the motion features are changed the whirlpool dimensions will be changed also- also the whirlpool moves by the sea water motion even with a different velocity relative to the sea waves velocity but the whirlpool motion still is caused by the sea water motion- based on this picture we can say (because the water motion velocity is 80 km/h that causes this whirlpool diameter to be 2 meters "for example') – this is perfectly our sentence – let's remember it
(because Neptune velocity is 5.4 km/s that causes Neptune diameter to be 49528 km)
This idea is proved by my planet diameter equation (my fourth equation) (point No.**)
(B)
Now The velocity is a motion in (A Defined Direction)
Means– the matter is created because it depends on a motion in a defined direction- as we have seen- Neptune diameter is 49528 km because Neptune velocity is 5.4 km/s but this velocity is a motion in defined direction- and that tells Neptune creation depends on a motion in the direction of the (x axis positive "+x ") (for example)
That tells, if this motion moves in (x axis negative "-x ") that will cause Neptune diameter to be changed or perished
Means- the matter creation needs a motion in A Defined Direction
Now let's ask our question
Why Can't The matter (creature) Moves Toward Its Past?
Because the matter depends on a motion in one defined direction- that causes the matter moves into (the future) always and can't move into (the past) let's discuss this question more deeply in point no (I-6)
Notice
No Planet Moves By The Sun Gravity (Newton is wrong) – logically because- the planet moves by its creation force- means- the planet creation and motion should be done by one force only (one energy only) because if two forces have effects on the same one planet- this planet will be broken- this fact is proved strongly with the gravitational waves source discussion (Point no.**)
I-5 The Planets Creation
I summarize the main idea in following and the idea proves and discussions are found in point no. (**)
(i)
We know, the solar system is created from energy of one light beam its speed is 1.16 million km per second- and – the light created the space (the planets orbits) firstly and the energy is consumed in the space creation- and for that- the rest energy is found in one light beam its speed is 300000 km/s - And
From this light beam 300000 km/s the solar planets are created
Shortly
before the solar planets creation
The solar system was one light beam (or one wave moves by speed of light (300000 km/s)- by that – the solar system is One Wave moves by speed of light (300000 km/s)
Now
The Solar System needs To Create A Stationary Point Its velocity Zero relative to the moving one wave (300000 km/s)
This is the basic information in the solar system design-
The solar system needs to create a stationary point relative to the wave motion- by that – two velocities will be found which are (v1= the wave its speed 300000 km/s) and (v2= Zero= the stationary point velocity relative to the wave motion)–these two velocities produce a relative motion with different velocity 300000 km/s– this relative motion is the solar system design cornerstone.
Shortly – the solar system needs to create A Stationary Point
Notice– The solar system is carried by the light beam motion, NO stationary point can be found here – it's similar to a ship on the sea water- Nothing can stop- because the motion is done forcedly by the sea water –
The stationary point will be similar to the whirlpool (vortex) on the sea page- BUT
The solar system needs to create this stationary point - Now – let's try to create this stationary point in following - The solar system uses two procedures to do that,
(ii)
The first procedure
The wave its velocity 300000 km/s revolves around a point in space (any point in space), the revolution motion creates 2 equal velocities on both sides of the revolution- the two velocities are equal in value and opposite in direction- their total be equal Zero-means- the revolution motion creates A Stationary Point in the center of the revolution.
The second procedure
The previous idea is correct- but –the velocity 300000 km/s is a huge one and to decrease it to Zero velocity this is a complex process– for that- the wave (300000 km/s) created small waves with low velocities to use them as steps to decrease the velocity to Zero- the small waves are The Planets- (The planet is a small wave moves by low velocity relative to the original wave its velocity 300000 km/s)
Why Are These Small Waves Required?
Because the velocity 300000 km/s is decreased to Zero by using these small waves and their low velocities- the low velocities are used as steps to decrease the unified wave velocity (300000 km/s) to be (Zero)- this process decreases the velocity gradually from 300000 km/s to Zero depending on these small waves velocities (the planets velocities)
Means- the planets are created for this process to decrease the wave velocity from 300000 km/s to Zero- and The Planet Is A Small Wave Moves By Low Velocity
Shortly – the solar system has one complete system of velocities, Starting from Zero to 300000 km/s where the planets velocities are the steps between the two velocities – let's prove that here
(iii)
300000 km = 7.1 x (205.8)^2 where
7.1 is Lorentz length contraction effect for speed 297000 km/s (99% of speed of light)
205.8 km/s = the 9 planets velocities total (176 km/s) + the Earth moon velocity
(The moon velocity =29.8 km/s = the Earth velocity because they revolve together)
Why does the data use the squared value (205.8)^2?
We know the answer- but - Let's remember it
The planets are geometrical points on the same light beam and move with its motion- for that- the planets velocities rates creates rates of time– for example- Mercury velocity = 1.6 the Earth velocity- that means – one hour of Mercury clock = 1.6 hours of the Earth clock- Why??
Because Mercury and the Earth are carried by the same one light beam- the light moves one motion and passes one distance in one period of time- by that Mercury and the Earth have to move this same motion and to pass this same distance in this same period of time- but the two planets velocities are different- for that- the planets use different rates of time based on their velocities rates and by that the planets move equal distances in the same period of time –
Now- the velocity (205.8 km/s) moves relative to the stationary point (Zero) and creates a rate of time (1 second = 205.8 seconds) –
(one second of the unified wave clock = 205.8 seconds of the stationary point clock)
But – the energy is reflected in the solar system (I prove that in point no.**),
The energy reflection reflects the players – means
(one second of the stationary point clock = 205.8 seconds of the unified wave clock)
The stationary point will be THE SUN – by that
(one second of the sun clock = 205.8 seconds of the unified wave clock) – means
(one second of the sun clock = 205.8 seconds of any planet clock) –
Now during one second of the sun clock, the wave clock needs 205.8 seconds while the wave moves by a velocity 205.8 km/s- means –
During one second of the sun clock, the wave moves 42253 km = 300000 km /7.1
That creates the different velocity 300000 km/s between the sun motion and the wave motion-
Notice 1
The wave (205.8 km/s) moves during 1461 seconds a distance = 300000 km, and we know the Earth cycle (1461 days = 365 +365 +365 +366)
That tells, the speed of light (300000 km/s) is performed by the rate of time and that causes to create the Earth cycle-
Notice 2
Planet velocity is created by the rate of time- means- if no rate of time can be used – No planet velocity can be created – instead- all motions will be only by speed of light (300000 km/s)- the planet can create a small velocity because it can use rate of time
We realize that clearly because
The planets motions depend on the light motion- by that – the motion is done by One Motor only which moves by speed of light (300000 km/s), the planets can only move by speed of light or create a rate of time for their smaller velocities - No more options are provided.
Notice 3
We understand that, the planets are geometrical points on the same light beam, means
The planets are similar to carriages in one train and the light motion is the train engine means the planets are carried on the light beam and move with this light motion
I-6 Can The Time Machine Be A Fact?
To answer this question we need to review basics facts we have studied – let's do that in following
(1)
The solar system is created from one energy and this energy is provided by one light beam
(2)
The light moves simply and freely in any direction (for space) and (for time)- means- the light can move into the future (as matter does) or into the past (which the matter can Not do)
(3)
We know, the solar system is created from one light beam, and this light moves by a speed (1.16 million km per second) - And
We know, the light (1.16 million km per second) created the planets orbits firstly before any planet creation and the energy is consumed in the space creation and because of the energy consumption the light speed is decreased from (1.16 million km per second) to the known speed of light 300000 km/s – also
We know, the light (1.16 million km per second) started its motion from Mercury orbit moves toward Pluto- that means- the light (1.16 million km per second) started from Mercury orbit with speed (1.16 million km per second) and the light created all planets orbits till Pluto orbit- before any planet creation- and by that- the light lost its energy and the light beam in Pluto orbit reduced its speed to be 300000 km/s as a result for the energy consumption in the space creation process
(4)
Also we know the energy is reflected from Pluto toward Venus (the inner planets)
By that the light beam (300000 km/s) moves in the reflected direction to the original light beam (its speed 1.16 million km per second)
And – we know-
The light beam (300000 km/s) reaches to the original point (Mercury Orbit) from which the light (1.16 million km per second) started its motion
And we know that
A coherence of light is done between the original light beam (1.16 million km per second) and the light beam (300000 km/s)
BUT we don't know how such coherence can be occurred? Let's analyze that deeply in following
(5)
The produced light beam (300000 km/s) moves in (the reflected direction) to the direction of the original light beam (1.16 million km per second) (In Space) and reaches to Mercury orbit (the origin point)
But– logically – the produced light beam (300000 km/s) can NOT find the original light beam (1.16 million km per second) there because the original light beam is consumed already in the space creation process and the rest energy is this produced light beam (300000 km/s) – based on that –
How Can This Coherence Be Occurred? Means-
How can the produced light beam (300000 km/s) meet the original light beam (1.16 million km per second)? The answer is
The produced light beam (300000 km/s) moves (in the reflected direction) to the motion direction of the original light beam (1.16 million km per second) (In Space) and (In Time) Means- the produced light beam moves into (Its Own Past) and in the past this produced light beam (300000 km/s) was (A Part of the original light beam 1.16 million km per second) and because of that the produced light beam (300000 km/s) can meet the original light beam (1.16 million km per second),
And
The two light beams create a coherence (in the past) and we see the results of this coherence in our present time-
The idea is very important because – the coherence of the two light beams (1.16 mkm/s and 0.3 mkm/s) is proved strongly and with powerful proves and any explanation for this coherence will prove that the produced light beam (300000 km/s) must move Into The Past to enable this coherence occurrence- and that tells clearly- the travel through the time is possible and fact
BUT
Can the matter moves into its past as the light does? NO
Why?? Because
We know the light can move simply in any direction (+ x, + y, + z, + t) by that the light can move into the future and can move into the past BUT
The matter creation depends on A Motion In A Defined Direction-
let's remember this idea
Neptune diameter =49528 km because Neptune velocity is 5.4 km/s
(This Fact Is Proved By My Planet Diameter Equation)
Now, Neptune velocity is a motion in a defined direction
(for example a motion in +x direction)
The energy moves in this direction (+x direction) and because of this motion Neptune matter is created and Neptune diameter is defined- now if the energy moves in (opposite direction "–x direction") that will change Neptune diameter or cause to perish its matter at all
Means- as long as – Neptune is found- that means – the energy moves in one direction (and not two directions) – for that Neptune can move into the future but can NOT move into the past.
Notice
The matter can not move into the past but the light can do that-
Means- we have the time machine already- we need to know how to send the light into the past and by that we can have photos from the past events- and this will be The Time Machine
The Hypothesis Proves
I-7 The Proves Logic Analysis
I-8 Planet Velocity Is A Function In A Speed = (1.16 million km /s)
I-9 Planets Orbits Are Defined By A Motion Its Speed = (1.16 million km /s)
I-10 Jupiter distances are defined by a motion by a speed = (1.16 million km /s)
I-11 The Solar System Geometrical Design Proves The Hypothesis
I-12 The Solar System Distances Analysis Prove The Hypothesis
I-13 Deep Analysis For The Planets Orbits
1-14 Light defines each planet orbital period
I-15 Can Planet Diameter Be Used As A Period Of Time?
I-16 Mercury Orbit Analysis
I-7 The Proves Logic Analysis
Why can we prove that, a light beam its speed 1.16 million km per second is found in the solar system? also, the theory tells this light beam energy is consumed and the rest energy is found in one light beam its speed 300000 km/s (the known speed of light), if this light energy is consumed, how can we prove its existence?
There are two major reasons, which are
The Planets Orbits Are Created Before Any Planet Creation- And These Orbits Are Created Based On One Motion- And This One Motion Is Done By A Speed 1.16 Million Km Per Second.
The Planets Matters Are Created Based On Their Orbits – means- the planet is similar to a tree and the orbit is similar to a ground and the tree is planted in the ground-
NOTICE
after the planet creation, the planet can migrate from its original orbit to any other orbit - as Mars and Pluto did and that will not cause to destroy the planet.
Shortly-
the planet matter and data is created based on this planet orbit- the orbit is defined before any planet creation and based on the orbit the planet matter and data is created (we remember- the space is similar to the sea of water and the planet matter is similar to a whirlpool found on this sea page- that tells the whirlpool is created based on its place in the sea of water)
Shortly- The Planet Matter Is Created Depends On This Planet Orbit
The speed 1.16 million km per second is registered in the planets orbits because the orbits are created from the energy of the light beam (1.16 million km per second), and the planet matter is created from this planet orbit (energy)
Shortly
The light beam (1.16 million km per second) is the source of energy for (everything) in the solar system-
All orbits are defined by its energy, all matters are created by its energy, and all motions are done by its motion-
Can we prove this light beam is a fact? YES we can
The analysis for any data or any motion will discover this light beam because it's the source of energy for everything
Shortly
the light beam (1.16 million km per second) is The Source Energy of the solar system
The mother of all children can be discovered by analysis these children data
A QUESTION
Can the solar system design uses a rate 1.16 and I can't understand that but wrongly consider this rate (1.16) as a speed of light 1.16 million km per second?
NO- this can't be possible – Because
The light beam (1.16 million km per second) behaves typically to the known light beam (300000 km/s) – as we will see in the data discussion
I-8 Planet Velocity Is A Function In A Speed = (1.16 million km /s)
DATA
My 5th equation (v1v2=322)- the planets velocities prove it–let's see that in following
322 = 47.4 km/s (Mercury velocities) x 6.8 km/s (Uranus velocities)
322 = 35 km/s (Venus velocity) x 4.7 km/s (Pluto velocity) x 2
322 = 29.8 km/s (the Earth velocity) x 5.4 km/s (Neptune velocities) x 2
322 = 24.1 km/s (Mars velocity) x 13.1 km/s (Jupiter velocity)
322 = (17.9 km/s)^2 (Ceres velocity) (Max error 2%)
DATA ANALYSIS
The previous data tells the planets velocities are defined by three features
(1st Feature)
The planets velocities are complementary one another –means - each planet velocity is complementary with another planet velocity– means– The planets velocities are defined in pairs and not in single planets.
(Notice, the inner planets orbital inclinations are defined by the rule (v1/v2), for example, Mercury orbital inclination 7 deg = Mercury velocity 47.4/ Uranus velocity 6.8 that proves the effect of the rule (v1v2=322) on the planet motion)
Ceres velocity tells the idea - Ceres is used as the main point - as a result the outer planets be complementary with the inner planets – for that the rule (v1v2=322) controls the planets velocities- that means- The planets velocities are created based on One Design- Ceres velocity is used as the main point for this design
(2nd Feature)
Why the constant is 322? because 1160000 seconds = 322 hours – means- there's speed of light = 1.16 million km /s - Shortly
Mercury (47.4 km/s) moves during 6.8 hours a distance = 1160000 km
Uranus (6.8 km/s) moves during 47.4 hours a distance = 1160000 km And
Venus (35 km/s) moves during 2 x 4.7 hours a distance = 1160000 km
Pluto (4.7 km/s) moves during 2 x 35 hours a distance = 1160000 km
Earth (29.8 km/s) moves during 2 x 5.4 hours a distance = 1160000 km
Neptune (5.4 km/s) moves during 2 x 29.8 hours a distance = 1160000 km And
Mars (24.1 km/s) moves during 13.1 hours a distance = 1160000 km
Jupiter (13.1 km/s) moves during 24.1 hours a distance = 1160000 km And
(Notice - Saturn (9.7 km/s) moves during 33.2 hours a distance = 1160000 km - (between 33.2 and Venus velocity 35 km/s the error 5%)) (Data Max error 2%)
The Data Proves, The Planets Velocities Are Functions In The Speed 1.16 Million Km Per Second. That proves the speed (1.16 million km per second) is A Fact
(notice the planets velocities are complementary one another also based on the known speed of light 300000 km/s, the paper provides this data)
(3rd Feature)
The planets velocities limit depend on the known speed of light 300000 km/s
Let's explain that in following
The 9 planets velocities total is 176 km/s (I add the Earth moon velocity 29.8 km/s)
The 10 planets velocities total is 205.8 km/s
300000 km = 7.1 x (205.8)^2
The speed 297000 km/s (99% speed of light) causes Lorentz length contraction effect with the rate 7.1
The velocity (205.8 km/s) moves during 205.8 seconds a distance 42253 km
Where 300000 = 7.1 x 42253 km BUT 42253 = (205.8)^2
The squared value (205.8)^2 is found because of the used rate of time
We have studied this equation in point (I-5**) -the data shows, the planets velocities are defined as parts of a complete system of velocities starts from (Zero = stationary point) and reaches to the speed of light 300000 km/s and between these two values the planets velocities are defined to support this same system- that tells- the planets velocities are defined with limit to the speed of light (300000 km/s) - The data proves the speed (1.16 million km per second) is a fact -and also the data proves the coherence is done between the light (1.16 million km per second) and the light (300000 km/s)
I-9 Planets Orbits Are Defined By A Motion Its Speed = (1.16 million km /s)
(1) Mercury Motion
During 310s light its speed (1.16 million km per second) travels 360 million km
During 310 s light known speed (300000 km/s) travels 93.1 million km
BUT
93.1 million km x 2π = 586 million (this value will be used by Venus as a period)
Where 360 million km = Mercury Orbital Circumference
(2) Venus Motion
During 586s light its speed (1.16 million km per second) travels 680 million km
During 586s light known speed (300000 km/s) travels 175.8 million km
BUT
175.8 million km x 2π = 1104 million (this value should be used by Earth as a period)
680 million km = Venus Orbital Circumference
(3) Earth Motion
During 810s light its speed (1.16 million km per second) travels 940 million km
During 810s light known speed (300000 km/s) travels 243 million km
243 million km x 2π = 1526 million (this value should be used by Jupiter as a period)
Where 940 million km = Earth Orbital Circumference
BUT
During 940s light its (1.16 million km per second) travels 1104 million km (error 1%)
That shows the direction reflection between the Earth and Venus because of the reflection of energy- I proved that in point no. (**)
Notice –
Jupiter is the next planet after the Earth based on the light motion design for that the Earth value (1526 million km) should be used by Jupiter because Mars is a migrant planet and Mars original orbit was between Mercury and Venus and the next planet for the Earth was Jupiter- the confusion in data is made by Mars migration effect
(More explanation is provided in the comment on the data)
(4) Mars Motion
(Mars Is Exceptional)
During 1235s light its speed (1.16 million km per second) travels 1433 million km
During 1235s light known speed (300000 km/s) travels 371 million km = 2π x 59 mkm Where 1433 mkm = Mars Orbital Circumference
(5) Jupiter Motion
During 4224s light its speed (1.16 million km per second) travels 4900 million km
During 4224s light known speed (300000 km/s) travels 1267 million km –
4900 mkm =Jupiter Orbital Circumference
1267 million km x 2π = 7960 million km (this value be used by Saturn as a period)
Notice
Mars is a migrant planet for that – the Earth value isn't used for Mars orbit- but it's used for Jupiter orbit- and because of the reflection between Venus and the Earth- the Earth produces the value directly (1526 million km) without using the light speed (1.16 million km per second) where
1526 million km = Jupiter Orbital Distance 778.6 million km x 2 (error 2%)
Notice
During 4224s light its speed (1.16 million km per second) travels 4900 million km
4900 million km = Jupiter orbital circumference while 4222.6 hours = Mercury day period- if (one hour of Mercury = One second of light clock) that will connect Jupiter with Mercury strongly- this is a fact because- the solar system depends on Mercury clock in its motion and the planets orbits are defined based on Jupiter orbit after the planets migration- that makes Mercury and Jupiter the two heads of the solar system unified motion.
(6) Saturn Motion
During 7960s light its speed (1.16 million km per second) travels 9007 million km
During 7960s light known speed (300000 km/s) travels 2388 million km
9007 mkm = Saturn Orbital Circumference
2388 million km x 2π =15004 million km (this value be used by Uranus as a period)
(7) Uranus Motion
During 15559s light its speed (1.16 million km per second) travels 18048 million km
During 15559s light known speed (300000 km/s) travels 4668 million km
18048 mkm = Uranus Orbital Circumference
4664 million km x 2π =29305 million km (this value be used by Pluto as a period)
Notice
The transported value from Saturn is 15004 but the used value is 15559 (error 3.5%)
(8) Neptune Motion
(Neptune is exceptional)
During 24348s light its speed (1.16 million km per second) travels 28244 million km
During 24348s light known speed (300000 km/s) travels 7305 million km
28244 mkm = Neptune Orbital Circumference
(9) Pluto Motion
During 31983s light its speed (1.16 million km per second) travels 37100 million km
During 31983s light known speed (300000 km/s) travels 9595 million km
37100 mkm = Pluto Orbital Circumference
(10) The Earth Moon Motion
During 639s light its speed (1.16 million km per second) travels 724 million km
During 639s light known speed (300000 km/s) travels 191.6 million km = 2π x 30.5 mkm – BUT
30.5 mkm = 88000 km x 346.6 days
The moon displacements total during 346.6 (solar days) = 30.5 mkm
346.6 solar days= The nodal year and 88000 km = The moon displacement daily
742 mkm = The distance is passed by Uranus in 30589 hours - The data tells, the moon orbit regression be done by effect of Uranus motion.
THE COMMENTS ON DATA
(1)
We should note that, the data follows the rule perfectly- as we see in Mercury and Saturn data – the confusion in data is found by the planets migration – let's prove that
680 mkm (Venus Orbital Circumference) x (1.16 mkm/s) ^2 = 940 mkm
28244 mkm (Neptune Orbital Circumference) x (1.16 mkm/s) ^2 = 37100 mkm
(Max error 2.5 %)
940 mkm = Earth Orbital Circumference
37100 mkm = Pluto Orbital Circumference
Clearly the confusion of data is done for the Earth and Jupiter (Mars migration effect) and for Pluto and Neptune and Uranus (Pluto migration effect)
Shortly
The light (1.16 million km per second) created the solar system distances based on one another as the chess board distances- perfectly the light created the distances based on one geometrical design and as one network- But – The planets migration caused confusion for the data- by that the planets orbits data is confused and no longer be seen as designed by the light motion- specially because the solar system design repair needed to make Jupiter orbit as the central orbit based on which all planets orbits are modified- by that– the discovery for the light motion effect on the solar system distances creation needed deep analysis in data to remove the confusion.
Notice
The Earth data produced the value (1526 mkm) and this distance is used by Jupiter as a distance (1526 mkm = 2 x 778.6 mkm Jupiter Orbital Distance) (error 2%)
And
Uranus data produced the value (29305 mkm) and this distance is used by Neptune as a distance (29305 mkm= 28244 mkm= Neptune Orbital Circumference) (error 4%)
The behaviors are typical tell that by the same effect the modifications of both planets data are done-
Notice
680 sec x 1.16 million km /sec = 789 mkm (Jupiter orbital distance 778.6 mkm error 1.3%) – the data shows – Jupiter is the mentioned planet after the Earth because Mars original orbit was between Mercury and Venus by that the light motion moved from the Earth to Jupiter directly- Mars is not seen in this motion-
(2)
The inner planets distances ( 93.1, 175.8, 243, 370.6) can be used as cycles periods
175.8 solar days =Mercury day period
243 solar days = Venus rotation period
370.6 solar days are near to 365.25 days (error 1.5%),
(93.1 days x 2π= 584 days =the period of periodical meeting of Earth and Venus)
This equality depends on the rate 1mkm = 1 day
That tells each planet creates its PREVIOUS NEIGHBOR CYCLE PERIOD
And the outer planets distances in blue color (1267, 2330 , 4664, 7305, 9595)
2330 = 2 x 1165 = 2π x 371
4664 = 4 x 1165 = 4π x 371
7305 = 2π x 1165 =2π2 x 371
9595 = 8 x 1165 = 8 π x 371 (error 3%)
This data cornerstone is the number (371), (the Earth year 365.25 days)
The data refers to the Earth year because of the Earth effect on the sun creation
NOTICE
The data proves each planet orbit is defined based on its neighbor – my first equation (Planet orbital distance equation) proves this fact –
In following I put my planet orbital distance equation for revision
Planet Orbital Distance Equation
(My First Equation)
d = A Planet Orbital Distance
d0= Its Direct Previous Neighbor Planet Orbital Distance
The equation depends on the planets order, for that , just 2 neighbor planets can be used in this equation, means if (d is Venus distance, d0 be Mercury distance)
The equation exceptions are,
Earth depends on Mercury Not Venus – and Mars depends on Venus Not Earth And Pluto depends on Uranus Not Neptune
Note, we don't use the forma (d=2d0) instead we use the forma (d2 = 4d0 (d-d0)) because it uses the distance between the 2 planets and that decreases the errors
Let's test the equation
(1) Venus Motion
(108.2)2 = 4 x 57.9 x (50.3)
d= 108.2 million km = Venus Orbital Distance
d0= 57.9 million km = Mercury Orbital Distance
50.3 million km = The Distance Between Venus And Mercury
Venus Depends On Mercury
(2) Earth Motion
(149.6)2 = 4 x 57.9 x (149.6-57.9) (error 2.8%)
d= 149.6 million km = Earth Orbital Distance
d0= 57.9 million km = Mercury Orbital Distance
Earth depends on Mercury and doesn't on Venus
(3) Mars Motion
(227.9)2 = 4 x 108.2 x (227.9-108.2)
d= 227.9 million km = Mars Orbital Distance
d0= 108.2 million km = Venus Orbital Distance
Mars depends on Venus and doesn't on Earth
(4) Ceres Motion
(415)2 = 4 x 227.9 x (415-227.9)
d= 415 million km = Ceres Orbital Distance
d0= 227.9 million km = Mars Orbital Distance
Ceres depends on Mars
(5) Jupiter Motion
(778.6)2 = 4 x 415 x (778.6- 415)
d= 778.6 million km = Jupiter Orbital Distance
d0= 415 million km = Ceres Orbital Distance
Jupiter depends on Ceres
(6) Saturn Motion
(1433.5)2 = 4 x 778.6 x (1433.5- 778.6)
d = 1433.5 million km = Saturn Orbital Distance
d0 = 778.6 million km = Jupiter Orbital Distance
Saturn depends on Jupiter
(7) Uranus Motion
(2872.5)2 = 4 x 1433.5 x (2872.5- 1433.5)
d= 2872.5 million km = Uranus Orbital Distance
d0 = 1433.5 million km = Saturn Orbital Distance Uranus depends on Saturn
(8) Neptune Motion (error 4%)
(4495.1)2 = 4 x 2872.5 x (4495.1- 2872.5)
d= 4495.1 million km = Neptune Orbital Distance
d0 = 2872.5 million km = Uranus Orbital Distance Neptune depends on Uranus
(9) Pluto Motion
(5906)2 = 4 x 2872.5 x (5906- 2872.5)
d= 5906 mkm = Pluto Orbital Distance
d0 = 4495.1mkm = Neptune Orbital Distance Pluto depends on Uranus
Notice the error is less 1% for all planets except (Earth 2.8%) and Neptune (4%)
The Equation Discussion
(a)
The Equation tells each planet orbital distance depends on its previous neighbor planet orbital distance – but – there are 3 exceptions which are –
Earth depends on Mercury not Venus –
Mars depends on Venus not Earth–
Pluto depends on Uranus not Neptune–
(b)
The equation shows – the distance from the sun to Pluto be distributed based on one geometrical design – means – the distances be created together as one group in one a network form – the distances be similar to the chess board distances- they are distributed geometrically and in one network based on one design -
Shortly
No Single Distance be Created independently or individually – We deal with one network of distances -
Means
By Using Mercury Orbital Distance (57.9 million km) (one data) We Can Conclude All Planets Orbital Distances (9 Data) By Using Mathematical Calculations Only
(c)
Kepler stated (Planet orbit defines its velocity) – this concept is used in my third equation (d1/d2) = (v2/v1)2 where d= Planet Orbital Distance and v = Planet Velocity
The concept tells– If we know a planet orbital distance, we can conclude its velocity by mathematical calculations only
Shortly
By Using my 1st equation (d2 = 4d0 (d-d0)) and kepler law and the One Data (Mercury orbital distance = 57.9 million km) we can conclude by mathematical calculations only All Planets Orbital Distances, Velocities And Periods (27 Data)
That proves the concept (Planet data be created based on exact equations)
Planet Orbits Are Defined By Very Accurate System
Each planet orbit is defined based on an angle, these angles are reflected also – let's prove that (I suppose –There's a right triangle by the three points The Sun, Mercury and Venus) - Now
Venus angle is (61 degrees) because Venus orbital distance (108.2 mkm) x cos (61) = Venus Mercury distance (50.3 mkm) -
Here we can replace Venus with any other planet in the same triangle to define this planet angle based on similar calculation – as a result
Earth angle is (51 degrees) because Earth orbital distance (149.6 mkm) x cos (51) = Earth Mercury distance (91.7 mkm)
Mars angle is (41.7 degrees) because Mars orbital distance (227.9mkm) x cos (41.7)= Mars Mercury distance (170 mkm)
Jupiter angle is (22.2 degrees) because Jupiter orbital distance (778.6 mkm) x cos (22.2)= Jupiter Mercury distance (721 mkm)
Similar to that – Saturn angle is 16.5, Uranus angle is 11.6 deg, Neptune angle is 9.2 deg and Pluto angle is 8 deg- these angles follow the same system – for example
Pluto angle is (8 degrees) because Pluto orbital distance (5906 mkm) x cos (8)= Pluto Mercury distance (5848 mkm)
NOTICE No. (1) The right angle and its triangle is (a hypothesis) – we Can prove it because (v1/v2) = (θ1/ θ2)
means – these angles are rated with their planets velocities – for example
(Neptune velocity 5.4/ Pluto velocity 4.7) = (9.2 deg /8 deg)
Shortly -the angles which are defined based on the sun perpendicularity on Mercury orbit – all of them- are the correct angles by which the planets orbits are defined – that because the planets velocities are rated with these angles and Kepler stated (Planet orbit defines its velocity)- means- the planets orbits are defined based on these angles and that causes the angles rates to be equal with the velocities rates - Shortly -That tells indeed the sun position is perpendicular on the (inner planets orbits) – in fact – the sun is perpendicular on the Earth moon orbit- and this perpendicularity has effect on all inner planets because of the small distances among them.
I-10 Jupiter distances are defined by a motion by a speed = (1.16 million km /s) Data
(1)
(1.16 million km /s) x 300 sec = 348 mkm (300 mkm = Earth orbital distance x 2)
(1.16 million km /s) x 348 sec = 470 mkm (470 x2 = Earth Orbital Circumference)
(1.16 million km /s) x 470 sec = 551 mkm (Mars Jupiter Distance)
(1.16 million km /s) x 551 sec = 629 mkm (Earth Jupiter Distance)
(1.16 million km /s) x 629 sec = 721 mkm (Mercury Jupiter Distance)
(2)
(1.16 million km /s) x 108.2 sec x 4 = 500 mkm (108.2 = Venus orbital Distance)
(1.16 million km /s) x 500 sec = 580 mkm
(1.16 million km /s) x 580 sec = 671 mkm (Venus Jupiter Distance)
(1.16 million km /s) x 671 sec = 778.6 mkm (Jupiter Orbital Distance)
(1.16 million km /s) x 778.6 sec x 2 = 1806 mkm
(1.16 million km /s) x 1806 sec = 2094 mkm (Jupiter Uranus Distance)
(1.16 million km /s) x 2094 sec = 4900 mkm/2 (Jupiter Orb. Circumference)
(3)
(1.16 million km /s) x 5127 sec = 5906 mkm (Pluto orbital Distance)
(1.16 million km /s) x 4437 sec = 5127 mkm (Pluto Jupiter Distance)
(1.16 million km /s) x 3825 sec = 4437 mkm (Mercury Neptune Distance)
(1.16 million km /s) x 3244 sec = 3825 mkm (=π x 1205 mkm Mars Saturn Distance)
(1.16 million km /s) x2872sec=3244mkm (=2x1622 mkm Uranus Neptune Distance)
(1.16 million km /s) x4900sec=2 x 2872 mkm (Uranus Orbital Distance)
(4)
(1.16)2 x 170 sec = 227.9 mkm (Mars Orbital Distance)
Where 170 mkm = Mercury mars Distance
(5)
(1.16 million km /s) x 1980 sec = 2296.8 mkm
(1.16 million km /s) x 2296.8 sec = 2644.6 mkm (Mars Uranus Distance)
(1.16 million km /s) x 2644.5 sec = 3033.5 mkm (Uranus Pluto Distance)
1980 million km = the orbital circumferences total of (Mercury + Venus + Earth)
(6)
(1.16 million km /s) x 3717 sec = 4310 mkm (Earth Neptune Distance)
(1.16 million km /s) x 4346 sec = 5040 mkm (Jupiter Pluto Distance)
3717 mkm = Jupiter Neptune Distance –
(Earth Neptune Distance 4345mkm "error 1%" and Jupiter Pluto dis. 5127 mkm error 1.7%)
Discussion - the data tells the idea clearly, it tells
The distances in the solar system is created together based on one design and by one motion- this one motion is the light motion (1.16 million km per second) and the light creates the distance and after that the light uses the created distance as a period of time to create another distance, and by that, the light created all distances in one network together based on one geometrical design and this creation of the distances is done before any planet creation- the data clearly and strongly proves the hypothesis.
NOTICE - The total distances in the solar system (the orbital and inner distances) are 45 distances, the previous data used almost 50% of these distances (because many distances are equal in the solar group – for example – (Saturn orbital distance = Mars orbital circumference)- this distances equality makes the previous data behave in place of around 50% of all distances- and no logic to suppose these all distances are rated by the way with the rate (1.16)!!
The logical explanation is my theory I have explained- the light (1.16 million km per second) creates the distances based on one another by using the distances as periods of time - Also this behaviors is typical to the behavior of the known speed of light (300000 km/s)– as we have seen before - During 2094 seconds the light (300000 km/s) moves 629 million km (=Jupiter Earth distance) where 2094 million km (= Jupiter Uranus distance)- Simply it's typical behaviors tells the fact that the speed 1.16 million km per second is real fact and used in the solar system design)
I-11 The Solar System Geometrical Design Proves The Hypothesis
Data (1)
(A) (1.16/0.3) x 2π = 24.3
(B) 1.16 million km per second x 86400 seconds = 100733 million km
(100733 million km = The Planets Orbital Circumferences Total)
Data (2)
(a) 4224 x 1.16 =4900
(b) 100733 = π x 32200
(c) 1.1318/0.3 = 5906 / (778.6 /2)
Discussion
Data (1)
Data no. (A) - (1.16/0.3) x 2π = 24.3
By this equation the space and time are created- because it shows the coherence of light between the light (1.16 million km per second) and the light (300000 km/s)
The equation tells – the space is created in curves (2π) and the time is created in units each unit = (24 hours)
Shortly- the time essential units are 2 units (the second and 24 hours) because of the rate of time (one second of light clock = 24 hours of planet clock) by that the period of the (one second) (for light motion) is comparable with (24 hours) for planet motion that means- the period (24 hours) is one unit can't be divided and it's similar to the second period which is a unit can't be divided
Data no.(B) 1.16 million km per second x 86400 seconds = 100733 million km
The data tells the light (1.16 million km per second) moves in solar day (24 hours= 86400 seconds) a distance = 100733 million km = The Planets Orbital Circumferences Total - that proves the solar planets orbits creation is done by the motion of this light beam (1.16 million km per second) - the data proves the solar system design depends on this light motion.
Data (2)
Data no. (a) 4224 x 1.16 =4900
The data tells, the light (1.16 million km per second) moves in 4224 seconds a distance = 4900 million km = Jupiter Orbital Circumference
But – Mercury day period is 4222.6 hours (4224 hours approximately)
If (one second of light clock = one hour of Mercury clock), that will make the period (4224 s) as Mercury day period – and – we know that Mercury day period is the main period in the solar system because the sun rate of time is created based on it as I explain in the second and fourth hypotheses of this paper-
Shortly- while Mercury is the solar system head- Mercury day period is the main period in the solar system and this period is used for Jupiter orbital circumference because all planets orbits are defined based on Jupiter orbit after the planets migration- this fact is discussed in the third hypothesis is details – let's summarize it
Mars original orbit was between Mercury and Venus, and Pluto was the Mercury moon, and Pluto size was equal Mercury size- But- Mars and Pluto had migrated from their orbits- the planets migration caused serious risk for the solar system geometrical design- And Uranus provides a vertical effect on Jupiter to fix it in its orbit and prevent Jupiter to migrate with the migrant planets- after Jupiter be fixed in its orbit all other planets redefined their orbits according to Jupiter orbit – by that – Jupiter orbit be the most important distance in the solar system-
Notice- later Uranus caused to create Saturn to support Jupiter role- Saturn creation is done after the Earth moon creation because the energy reflection caused this delaying
The data shows how the solar system design depends on Jupiter orbit
Data no. (b) 100733 = π x 32200
32200 million km = the different distance between Pluto orbital circumference and Jupiter orbital circumference
100733 million km = The Planets Orbital Circumferences Total
The data supports the same idea- Jupiter and Pluto orbits create the general design of the solar system- because Jupiter is the main orbit in it and Pluto the last orbit.
Data no. (c) 1.1318/0.3 = 5906 / (778.6 x 2) where
5906 million km = Pluto orbital distance
778.6 million km = Jupiter orbital distance
1.1318 million km = Jupiter motion distance per solar day
0.3 million km = speed of light 300000 km/s
The data shows the distribution of Jupiter and Pluto orbits are in proportionality with speed of light (300000 km/s) and speed of (1.16 million km per second)
BUT the data shows Jupiter velocity daily (1.1318 million km per day) in place of the speed of light (1.16 million km per second) Why??
Another question asks (Why do all Jupiter distances depend on the speed of light 1.16 million km per second?) as we have seen in the previous proof No. (1-10)?
The story told the facts, Uranus provided effect on Jupiter and as a result Jupiter orbit be used as the main orbit in the solar system- BUT- what's this effect Uranus provided on Jupiter? What had happened really?
Uranus sent a light beam its speed (1.16 million km per second) to Jupiter for that Uranus velocity and Jupiter velocity both depends on the speed (1.16 million km per second)
Jupiter should move a distance 1.16 million km per solar day (24h) BUT Mars effect created more problems and caused Jupiter to use (Mars rotation period 24.6h) in place of the solar day and decreased the velocity with 2.5%
Uranus moves a distance 1.16 million km (in TWO solar days- error 1.3%)
The solar system basic design depends on (two seconds and not one second) as I explained in details in the fourth hypothesis of this paper- now – the system design uses two seconds in place of one second because Uranus moves the required distance 1.16 million in two days
Shortly – the force which is sent from Uranus to Jupiter was a light beam its speed 1.16 million km per second and by this force Jupiter helped the solar system and supported the planets in their orbits to prevent more migration in the solar system
I-12 The Solar System Distances Analysis Prove The Hypothesis
DATA (No. I)
50% Of All Distances In The Solar System Are Equal One Another (WHY?)
(1)
Saturn Orbital Distance = Saturn Uranus Distance =1433 million km =
= Mars Orbital Circumference
= Pluto Neptune Distance (error 1.5%)
= Pluto eccentricity Distance (error 1.5%)
= Neptune Orbital Distance/π
= Uranus Orbital Distance /2
= Mercury Jupiter Distance x 2
(2)
Neptune Orbital Distance = Saturn Pluto Distance
Jupiter Pluto Distance = Uranus Neptune Circumference
Earth Neptune Distance = Mercury Saturn Circumference (0.5%)
(3)
Jupiter Mercury Distance = 2 Mercury Orbital Circumference
Jupiter Venus Distance = Venus Orbital Circumference (1.5%)
Jupiter Earth Distance = Earth Orbital Circumference (1.2%)
(Earth and Jupiter at 2 different sides from the sun)
(4)
Jupiter Mercury Distance = Mars Orbital Distance x π (0.6%)
Jupiter Uranus Distance = Venus Jupiter Circumference (0.8%)
Pluto Orbital Distance = Earth Orbital Circumference x 2π
DISCUSSION
The data tells these distances must be created based on each other because all of them are parts in one design and one network- the data tells – it's impossible for these distances to be created univocally nor independently – but they are created by one motion based on one design and for one result.
DATA (No. II)
(778.6/721)=(721/670)= (670/629)=(1433/1325)=(1284/1205)= (2872/2644)= 1.0725
These are distances measured in millions km – let's define them
778.6, 721, 670 and 629 are the distances between Jupiter and the sun, Mercury, Venus and the Earth respectively.
1433, 1325, 1284, 1025 are the distances between Saturn and the sun, Venus, the Earth and Mars respectively.
2872 and 2644 are the distances between Uranus and the sun and Mars respectively.
MORE DATA (No. I)
629 million km (The Earth Jupiter distance)= (1.0725)^2 x 551 million km (Jupiter Mars Distance)
4495.1 million km (Neptune Orbital Distance) =1.0725 x 2 x 2094 million km (Jupiter Uranus Distance)
5906 million km (Pluto Orbital Distance) = (1.0725)^2 x 5127 million km (Jupiter Pluto Distance)
5127 million km (Jupiter Pluto Distance)= (1.0725)^2 x 4437 million km (Mercury Neptune Distance)
2.574 million km (Earth motion distance daily) = 1.0725 x 2.4 million km (TheMoon Orbital Circumference)
DISCUSSION
These distances are rated each other with (1.0725) this rate is created by Lorentz length contraction effect (as I supposed and proved)- but – regardless this rate reason the question is – How can all these distances be effected by this rate together?
That can be possible only if (these distances are parts of one design and this design is effected by this rate as a result all distances be effected together)
The data proves the distances are created together based on one design and the distances are effected together by the same one effect – shortly- these distance can NOT be independent from one another but they are one group created based on one design.
I-13 Deep Analysis For The Planets Orbits
The Light Uses Each Planet Orbital Period To Move A Distance = This Planet Orbit + All Previous Planets Orbits Total
DATA
(1)
14 x 24 x (300000 km/s) = 100.8 million km = 2 x 50.4
(2)
35.76 x 24 x (300000 km/s) = 258 million km = 149.6 + 108.2
(3)
58.1 x 24 x (300000 km/s) = 418 million km = 149.6 + (2 x 108.2) + 58
(4)
109.3 x 24 x (300000 km/s) =787 million km = 58+ 108+149.6 +2 x228 (error 2%)
(5)
687 x 24 x (300000 km/s) = 4900 million km
(6)
687 x 24 x (300000 km/s) = 4900 million km
(7)
1710 x 24 x (300000 km/s) = 12312 million km = 28244/(1.16 x2)
(8)
4868 x 24 x (300000 km/s) = 17600 million km x 2
(9)
9517 x 24 x (300000 km/s) = 68522 million km = 2 x 18048 + 32400
(10)
14413 x 24 x (300000 km/s) = 103773 million km
DISCUSSION
The data shows the rule (Planet Orbital Period "days"/2π) x 24 x Speed Of Light (300000 km/s) = A Distance = This Planet Orbital Circumference + All Previous Planets Orbital Circumferences Total – let's prove this rule in following
(1) Pluto Data
90560 days (Pluto orbital period) /(2π) = 14413 days
14413 x 24 x 300000 km/s = 103773 million km
The planets orbital circumferences total is 100733 million km
Between 103773 mkm and 100733 mkm the error is (3%)
Pluto follows the rule perfectly- the light passes a distance = Pluto orbital circumference + all previous planets orbital circumferences = the planets orbital circumferences total
(2) Neptune Data
59800 days (Neptune orbital period) /(2π) = 9517 days
9517 x 24 x 300000 km/s = 68526 million km = (2 x 18048) + 32400
The distance 2 x 18048 million km = all planets orbital circumferences total before Neptune
32400 mkm = 1.16 mkm/s x 28244 seconds
28244 million km = Neptune orbital circumference
Neptune follows the rule perfectly but because of the energy reflection the speed (1.16 mkm/s) is used one additional time- clearly we see Neptune follows perfectly the rule
(3) Uranus Data
30589 days (Uranus orbital period) /(2π) = 4868 days
4868 x 24 x 300000 km/s = 17600 million km x 2
18048 million km (Uranus Orbital Circumference) (error 2.5%)
Uranus follows the rule perfectly because Uranus orbital circumference =18048 mkm and all previous planets orbital circumferences total is = 18048 mkm
(4) Saturn Data
10747 days (Saturn orbital period) /(2π) = 1710 days
1710 x 24 x 300000 km/s = 12312 million km
Jupiter orbit (4900) + Saturn orbit (9000) = 14000 million km
Light (1.16 million km/s) x 12312 seconds = 14282 million km
Means
The value (12312) equal (Jupiter orbital circumference)+Saturn orbital circumference
But the reflection of energy uses the speed of light (1.16) to have effect on the data
That tells Saturn follows the rule
Notice
12312 sec x 1.16 mkm/s = 14282 mkm = 28244 mkm/2
28244 mkm = Neptune orbital circumference – that tells the confusion in Saturn data is done by Neptune orbit effect
Notice
We see the speed of light (1.16 mkm/s) has effect on Saturn data by division (12312 = 14282/1.16) but in Neptune data we have seen the speed of light (1.16 mkm/s) has effect by multiplication (28244 x 1.16 = 32400)
That tells we have opposite positions between (Neptune and Saturn) and the light connects them together by one motion-
The data tells simply (A x 1.16 and B/1.16) this is effect of one light beam motion through both points.
(6) Jupiter Data
4331 days (Jupiter orbital period) /(2π) = 687 days
687 x 24 x 300000 km/s = 4900 million km
Jupiter orbital circumference = 4900 million km
The distance equal Jupiter orbital circumference only without the previous planets BUT - The inner planets orbital circumferences total be = 4900 million km
Let's prove that
360 (Mercury) + 680 (Venus) +940 (Earth) + 1433 (Mars) = 3413 million km
4900 million km – 3413 million km = 1433 million km
That tells – the data supposes the Earth moon orbital circumference around the sun = Mars orbital circumference = 1433 million km
By that 360 + 680 +940 + 1433 + 1433 = 4846 million km = Jupiter orbital circumference (4900 mkm) (error 1%)
(7)Mars Data
687 days (Mars orbital period) /(2π) = 109.3 days
109.3 x 24 x 300000 km/s = 787 million km = Jupiter orbital distance 778.6 million km (error 2%)
778.6 million km= 57.9 mkm + 108.2 mkm + 149.6 mkm + 227.9 mkm+ 227.9 mkm
Means- Mars Value (787 = 778 = the four inner planets orbital distances total + the Earth moon orbital distance to the sun (which is considered = Mars orbital distance)
Here the value provided the distances total and not the circumferences total
But Mars follows the rule perfectly because
The value (778) = the 5 planets orbital distances total
(8)Earth Data
365.25 days (Earth orbital period) /(2π) = 58.1 days
58.1 x 24 x 300000 km/s = 418 million km = 149.6 mkm (Earth orbital distance) + 2 x 108.2 mkm (Venus orbital distance) + 57.9 mkm (Mercury orbital distance)
The Earth follows the rule- the modification can be done by the moon effect on the earth motion.
(9)Venus Data
224.7 days (Earth orbital period) /(2π) = 35.76 days
35.76 x 24 x (300000 km/s)= 258 million km = 149.6 mkm (Earth orbital distance)+ 108.2 mkm (Venus orbital distance)
(10)Mercury Data
88 days (Earth orbital period) /(2π) = 14 days
14 x 24 x (300000 km/s) = 100.8 million km = 2 x 50.4
50.4 million km = Mercury Venus Distance
The Comment On The Data
(1)
We notice a deep interaction between Mars and Jupiter where Jupiter orbital period (4331 days /2π)= 687 days (Mars orbital period)
And Mars value (109.3 days) enables the light to pass a distance 778.6 mkm
109.3 x 24 x 300000 km/s = 778.6 million km (Jupiter orbital distance)
That shows deep interaction between Mars and Jupiter which is logical behavior because Mars is a migrant planet and Mars created an interaction with Jupiter to enable Mars to stay in its New orbit and prevent any more migration.
(2)
Mars orbital period 687 days = 88 (Mercury) + 224.7 (Venus) + 365.25 (Earth)
(error 1.5%)
Notice - 551 mkm (Mars Jupiter distance) = 57.9 mkm (Mercury orbital distance) + 108.2 mkm (Venus orbital distance) + 149.6 mkm (Earth orbital distance) + 227.9 mkm (Mars orbital distance) (error 1.5%)
(3)
The data shows very important fact
The data tells that (The Light Motion Is The Main Player Behind All Data)
Let's use the sea water as example
The sea water motion is the main player behind the sea waves, the ship sailing, the fish swimming and the cause for any motion in the sea - Different forms of motions in the sea we can discover but the motion reason and motor is the same one reason and motor – This is the useful result of this data- it's simply a major proof for my theory- the light motion is the reason behind all planets motions and data-
Notice - Why Is The Planets Data Analysis Method Important?
The planets data analysis makes some anatomy for the planets data, by that, we can know how this planet data is created and what geometrical reason caused to create this data- the planets data analysis also enable us to discover if a planet violates a rule used by the other planets- and it shows the geometrical reason behind this violation-
1-14 Light defines each planet orbital period
The light defines each planet orbital period based on this planet diameter
Data
142984 s x (0.3)^2 = 12868 = π x 4331 (error 5%)
120536 s x (0.3)^2 = 10747
51118 s x (0.3) = 30589/2
49528 s x (0.3)^2 = 4457
7510 s x (0.3) x 4π^2 = 88945 (= 90560 error 1.8%) (notice 7510 x 4π^2 =296483)
6792 s x (0.3)^2 = 611
7510 s x (0.3)^2 = 676 = 687 (error 1.5%)
12756 s x (0.3)^2 = 1148 = π x 365.25
12104 s x (0.3)^2 = 1089 = (π^2)/2 x 224.7
4879 s x (0.3)^2 = 439 = (π^2)/2 x 88
Notice
7070 s x (0.3)^2 = 637 = 687 / 1.0725
Where
(1)
The left side data is the planets diameters, in details
142984 km, 120536 km, 51118 km, 49528 km and 7510 km are the diameters of (Jupiter, Saturn, Uranus and Neptune respectively and 7510km =Pluto circumference)
And
6792 km, 12756 km, 12014 km and 4879 km are the diameters of (Mars, Earth, Venus and Mercury respectively) – all diameters are used as periods of time with the rate (1 km = 1 second) - The periods are used by light known speed (300000 km/s)
(2)
The right side is the planets orbital periods
12868 = π x 4331 (error 5%) (4331 days = Jupiter orbital period)
10747 days = Saturn orbital period
30589 days = Uranus orbital period
90560 days = Pluto orbital period
Notice
4457 million km = Neptune orbital distance
That shows Neptune produced its orbital distance in place of its orbital period based on the same rule proves that Neptune is found on the opposite direction to the other planets.
687 days = Mars orbital period (with 611 the error 12%)!
1148 days = π x 365.25 days (Earth Orbital Period)
1089 days = (π^2)/2 x 224.7 days (Venus Orbital Period)
439 = (π^2)/2 x 88 days (Mercury Orbital Period)
Notice
7070 s x (0.3)^2 = 637 = 687 / 1.0725
7070 km was Mars original diameter before its migration- and the rate 1.0725 is found by Lorentz length contraction effect.
The Comment On The Data
The data shows the following
Light Motion Connects Each Planet Diameter With Its Orbital Period
The equation modifications can NOT refute the theory because the modifications depend on geometrical constant as (π), or depend on the using of (C) or (C^2)- these values can't be considered new values nor change the rule because they are geometrical constants which shows modifications are done for the energy- for example- the energy reflection causes to square the speed, by that, the planets which us (C) have no reflection of energy but the planets use (C^2) are suffered from the energy reflection- Shortly- the modifications can't refute the theory- means- the data tells – planet orbital period is defined based on this planet diameter by effect of the speed of light
I-15 Can Planet Diameter Be Used As A Period Of Time
DATA
Jupiter (13.1 km/s) moves during 10921 s a distance = 142984 km = Jupiter diameter
Uranus (6.8 km/s) moves during 7510 s a distance =51118 km = Uranus diameter
Pluto (4.7 km/s) moves during 10921 s a distance =51118 km = Uranus diameter
Pluto (4.7 km/s) moves during 51118 s a distance =2 x 102536 km = Saturn diameter
Pluto (4.7 km/s) moves during 2 x 120536 s a distance =1.1318 mkm
(1.13184 mkm = Jupiter motion distance per solar day)
Where
10921 km = The Moon Circumference
7510 km = Pluto Circumference
The data shows the planets diameters are used as periods of time (for planets motions) also and not only for light motion – the fact is proved simply
The Comment On The Data
(1)
My planet diameter equation proves that planet diameter is created as a period of time because the diameter is created as a function in this planet rotation period.
(2)
The previous data is example of many similar which proves the planet diameter is used as period of time.
(3)
How can the planet diameter be used as a period of time?
Planet diameter is used as a period to define another planet diameter-
The idea is that- the solar system is created from one motion (the original light beam motion)- by this one motion all planets diameters are created for that each planet diameter defines the next planet diameter.
(CONT)
Gerges Francis Tawdrous +201022532292
Physics Department- Physics & Mathematics Faculty
Peoples' Friendship university of Russia – Moscow (2010-2013)
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phew. it's a good thing fall break's over. now i have can pretend the reason i'm not writing is cuz of my homework and not cuz i got back into warframe
#what who said that#just 16 hours and 54 minutes until my frost is done building#it's been like 2 years since i played it for more than 20 minutes#if the meta has changed i don't want to hear about it#i'm here for the fashion#on that note i do actually have a ton of trig homework i should've started earlier#lol
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౨ৎ SO HIGH SCHOOL ; LUKE HUGHES !
➪ summary: going into sophomore year she had no expectations, but when luke hughes sits in front of her during trig, suddenly her sophomore year turns into a mission
➪ pairing: luke hughes x fem!reader
➪ warnings: none ( i think ? ), not proofread per usual
➪ word count: 7.5k
➪ emma's notes: NOT BASED ON SO HIGH SCHOOL. i just listened to it a lot while writing it so that's what i named with. but it is a little based on what happened to me my sophomore year. i hope you guys enjoy this fic because honestly it took me way too long to write and yeah. for the sake of this fic, they're close to detroit - pls go with it for the plot thanks. UHHHH apologies if some of the scenes are short, they were important to the plot but i just didn't know what else to write. OKAY ENJOY :)
© laceyhearts ; do not copy, repost, translate, or put my work through ai generators. do not copy or remake my themes, graphics, or layouts.
She had no expectations for high school, let alone for her sophomore year. She never thought about meeting Prince Charming and having a cheesy homecoming proposal, never thought about late nights out with a guy that made her giggle at just the mere thought of him, never thought she’d have a press conference about a guy she liked with her favorite teachers.
And she was right, for the most part. She’d be lying if she didn’t say she stayed in bed, minutes from sleep, eyes fluttering close before opening seconds later, thinking about the guy she had seen in the hallway for a brief second. But she didn’t expect any of those things to happen, and none of those things did happen. Well, except for the press conference.
⎯⎯⎯ ౨ৎ ⎯⎯⎯
She met Ms. Wilsher and Ms. McCroix bright and early on her first day of sophomore year. It was first period, all of her friends were in AP Human Geography or AP United States History, but not her. It was a new class, not many people were in it, and she felt like an outsider as a bunch of the students high-fived the two teachers like they’d known each other for years.
“I’m Ms. Wilsher, and I’m assuming you’re y/n, right?”
She flushed, wiping her hand against her skirt before holding it out, nodding, “Yeah, hi. It’s nice to meet you.”
“And I’m Ms. McCroix, but you can just call me Croix. We’re not too formal around here.”
“Around here?” She questioned, head tilting in curiosity as she set her things down.
“Uh yeah, a lot of the kids kind of hang out with us, our classes intertwine sometimes, so most of the time it’s the same kids. Us and Mr. Carlson across the hall. Don’t worry, you’ll fit right in.”
And she did. Sure, it took a few days, but she slowly allowed herself to feel comfortable, share things with the two teachers that she’d come to trust and rely on more than she could imagine. Soon, this classroom would become her safe space.
⎯⎯⎯ ౨ৎ ⎯⎯⎯
Trig was next, a subject she felt comfortable in, a class she could just be and do her work where no one would bother her, and she didn’t have to second-guess everything she did. And while she thought it was going to be peaceful, she was proven wrong.
She took her seat in the back of the class, somewhere near the middle of the row, so she could still see the board easily, her go-to spot in any class. One by one, people she knew from middle school trickled in, some more people she didn’t, and one by one, they took their seats.
She shifted anxiously as guys who were deemed popular two years ago when they were in the height of their middle school years, guys who talked to her during a group project but now couldn’t tell you what her name was, sat next to her. She took a deep breath; she could get through 10 months with them, maybe, hopefully.
He was the last one to walk in, and at first, she didn’t know who he was. She hadn’t seen him around, she didn’t know his name like she knew the rest of the people around her, didn’t know what he could make her feel with just a small, awkward smile, not yet anyway.
She didn’t talk, didn’t introduce herself, she just gazed at him, shrinking in her seat, acting like her friend just texted her life-changing information as he sat in front of her, dapping his friends up like they didn’t just see each other a few weeks ago at the beach.
And it was like that for a few weeks, staying quiet because she didn’t know anyone in the class, making a connection with her teacher, Mrs. Cooper, laughing softly at the random things the boys around her said. Nothing happened, sophomore year was starting out as expected, and if she was lucky, it would stay that way.
⎯⎯⎯ ౨ৎ ⎯⎯⎯
Her friends were assholes, it was confirmed. Somehow, someway, she started liking Luke Hughes. She didn’t mean to, didn’t plan to, but her friends were insistent, and professional gaslighters.
The moment they found out that Luke Hughes was sitting in front of her in trig, they knew they had to get her to like him.
“You guys would be so cute together.” Chloe started, opening her lunchbox.
“Yeah, you know who else would be cute together? Me and a cow.”
“Luke kind of looks like a cow, a cute one. Like one of those highland cows that stick their tongues out.” Her friend, Stephanie, offered, shrugging as she took a bite of her sandwich.
Y/n stared at her, a blank expression on her face, before throwing her napkin at her, “Shut up.”
“Seriously, y/n/n. You guys would be cute, he’s nice and funny, and he likes hockey, which you do too. You should at least try. I know the last guy you liked didn’t end up well-”
“I asked him a question and he didn’t respond, he left me on heard. Only my mom does that.”
“Was she on her phone?”
“Yeah, what is with that? They can’t be mad at us for not being able to multitask, and then once they’re on their phone, they forget their ability to hear-”
“Hey! Focus, guys.”
Stephanie and y/n shut up, eyes snapping to Chloe, who gave them a look, “We’re sophomores-”
“Exactly, I have time to experience the high school romance life.”
“But how often are you going to have a class with Luke Hughes of all people?”
“Seriously, guys. I’m fine where I am, I don’t need to like anyone, I’m barely 16, stop acting like I’m 32, and if I don’t find someone now, I’m going to end up lonely forever.”
“Just trust me, you and Luke would break the school. You guys are adorable.”
“I haven’t even said a word to him.”
“You will, with our help. Now c’mon, let’s do this chem homework.”
⎯⎯⎯ ౨ৎ ⎯⎯⎯
It took y/n until the week after homecoming to say something to him. It didn’t even happen on purpose; they were talking about hockey, and her mind was moving a million miles per hour as she tried to keep up in their conversation. And one off-handed comment later, she found herself snorting in amusement as she kept her eyes trained on her paper in front of her, filling out the unit circle in front of her.
“What?”
She looked up, face dropping and cheeks flushing with embarrassment, “I- oh, nothing, sorry.”
Charlie, the one sitting directly next to her, raised an eyebrow. “Well, obviously something we said got you to laugh, so I want to know what it was.”
She wasn’t good at this, talking to people she barely knew. She was an introvert, the kind of girl who went through high school quietly, the kind of girl no one noticed until they were paired up with her for a group project.
“Seriously, it’s nothing. I was just thinking about something-”
“It’s okay, really. Just say it.” She could feel herself relax at the tone of his voice. He’d always been loud with his friends, stealing their phones and laughing like he had heard the funniest joke in the world. She didn’t know why it changed when he talked to her.
“I just- you guys were talking about the Calder, right? I don’t think Dahlin is going to get it, if I’m honest.”
Some of the boys looked at her like she had grown two heads, not expecting her to know what they were talking about, some of them looked at her like she had no idea what she was saying, but Luke? Luke gave her a curious look, a small spark in his eyes as he stared at her, a smile tugging at his lips.
“And who do you think will be?”
“Petterson. Plays for-”
“Vancouver, yeah. My brother just got drafted there.”
Her eyes narrowed before recognition lit them, “Right. Quinn. I watched the draft, congrats.”
“Thanks… Um, you are?”
“Y/n.”
“Luke.”
“Uh, yeah, I know.”
He grinned, holding his hand out to which she took carefully, their hands lingering for a moment before they pulled away.
Luke turned around, his friends laughing at the slight blush on his cheeks that she didn’t dare to believe was real. She made eye contact with Mrs. Cooper, a knowing smile on her lips that caused y/n to roll her eyes.
It was nothing, just a fleeting moment that happened because she couldn’t keep her thoughts to herself, and that’s all it would be.
⎯⎯⎯ ౨ৎ ⎯⎯⎯
November came quicker than she anticipated. She hadn’t talked to Luke since that day, and if she did, it was brisk, one-word answers that left both of them wanting more.
She’d been studying until 2 in the morning when it happened; she could feel herself grow exhausted quicker than usual, her nose started to run, and her cheeks flushed even if it was only 60 degrees in her room and the fan was on.
It got worse in the morning when she woke up, the pounding headache, the twist in her stomach, every symptom of sickness hitting her like a freight train. She tried to get up, tried to take a shower and get ready for the day, but as soon as she lifted herself off the bed, she fell right back down.
And that was the start of a long week of no school. She completed her homework in bed, binge-watched whatever new show was out, listened to music until she got bored, texted her friends who caught her up on all the random drama she missed, and before she knew it was back at school, sitting through first period with Ms. Wilsher and Ms. McCroix.
“Yeah, I don’t know, it was long, tiring. Probably just a bad flu or something.” She explained off-handedly, focusing on her work they had given out.
“You know, if you’re not ready to be back, you can go home.”
Y/n looked up at Ms. Reed, her social worker, who had stopped in to ask her how she was doing. She shook her head, “I’m going to get anxious if I miss anymore, it was already a struggle to get through today.”
“Well, you know where to find me if you need to talk. Now… how about that boy?”
“What boy?” Ms. McCroix walked over, a smile growing on her face.
Y/n flushed, “No one! There is no boy.”
“Really? Because I went to sub for Cooper the other day, and I overheard a certain someone asking about where you were.”
“As if.”
The three of them gave her a look, one that made her shrink in her seat because she knew she was going to have to talk about it, whether that was now or never.
“Fine, maybe there is, but it’s nothing. They were talking about hockey and I stated my opinion, nothing more, nothing less.”
“Uh huh. Do you like him?”
“No!”
“Do you think he’s cute?”
“Maybe…”
“Do you-”
The bell rang, effectively cutting off Wilsher from asking another question, y/n grinning at the interruption, “See you later.”
“Have fun in trig!” They sang, watching her rush out of the classroom.
⎯⎯⎯ ౨ৎ ⎯⎯⎯
She took a deep breath as she entered her trig classroom. There was no one there yet, no one besides her teacher.
“Hi, Mrs. Cooper.”
“Y/n, welcome back. You feeling okay?”
“Yeah, better than last week, felt like I was constantly getting hit by a bus.” She explained, taking the small stack of papers Mrs. Cooper had given to her.
“Don’t worry about getting caught up right away, alright? You can take the test you missed whenever, just make sure to do it before next Friday.”
“Yeah, thank you.”
She took her seat without a second thought, riffling through the papers as more and more people filed in. The boys sat down first, none of them batting an eye at her as they talked about their game the other night, all of them going on their phones to play a game.
Luke came in with a few seconds to spare, halfway to his desk when the bell rang, and plopped his backpack down as the announcements started.
His eyes fell on the girl in the seat behind him, eyes lightning up once he saw her figure, “Y/n.”
She jumped, slightly startled, looking up at him, “Hi?”
“You’re back!” He exclaimed, sitting down and turning to face her, coughing to lower his voice, “I uh- I mean you’re back. You sick or something?”
“Uh, yeah, the flu.”
“He was really worried about you, you know?” Charlie piped in, leaning over the side of his desk to ruffle Luke’s curls. “Kept asking us if we thought you were okay.”
“I did not, shut up.” Luke huffed, batting Charlie’s hand away and fixing his hair.
“Yeah, I’m gonna have to agree with Luke on this one.” Her voice was soft, tentative, a stark difference from the usually snarky tone she had when she talked to them.
“Why’s that, y/l/n?”
Her eyes narrowed at the use of her last name, casting a sideways glance towards the red-headed boy before letting it settle on Luke again, “Him? Worried? Yeah, sure.”
Luke felt her words low in his stomach, like she was implying that he was incapable of worrying about her. And, to some extent, he couldn’t blame her. The two hadn’t talked before the first day of school this year, hadn’t even made eye contact in the hallway before sitting next to each other.
But somehow, that didn’t matter to him. Something about her captivated him: the way she talked about hockey, the way she smiled at her phone when she was texting her friends, the way she completed her work with speed and precision, the way she offered help to the girl who sat next to her when she asked.
So yeah, he did care that she was out of school for a week without prior knowledge - not like it was his place to know in the first place.
⎯⎯⎯ ౨ৎ ⎯⎯⎯
It was later in the day when she saw him again, waiting for her friend in the stairwell as she came down from her eighth-period class. She hadn’t even noticed, not until Stephanie approached her, wrapping her in a hug because she hadn’t seen her in a week.
“Hi.”
Luke’s head snapped up at the sound of her voice, picking it out from the hundreds of other voices, eyes immediately finding hers, stopping in the middle of the staircase. He stumbled as people bumped into him, almost tumbling into the two girls but missing them by a few inches, “Dude, you good?”
Y/n and Stephanie had already started to make their way down the stairs by the team. Luke answered his friend’s question, both of them talking animatedly about their after-school plans, “I uh- yeah. I’m fine.”
“You sure, bro? You look like you just saw a ghost.”
“It’s nothing.”
And if Luke wasn’t about to combust at that moment, the distant sound of y/n squeaking his name out was enough to do it.
“Luke! No way.”
“He totally does, y/n/n. He could’ve been listening to any other conversation up there, but as soon as he heard your ‘hi’, he stopped in his tracks.”
“It’s just a coincidence.”
“Puh-lease. He’s into you, like head over heels into you.”
“We’ve talked like twice,” Y/n replied, pushing open the doors into the November air that was growing colder by the second.
“Doesn’t matter, his heart eyes are so obvious, it’s actually sickening.”
“Why don’t you date him then if you’re so intune with his eyes?” She teased, heading towards her mom’s car.
“Shut up, I'm not. I’m just making sure he’s good for you, duh.” Stephanie started walking the other direction to find her sister.
“Whatever, later loser.”
“Bye, dweep!”
Y/n climbed into her mom’s car, throwing her backpack in the back seat as she buckled her seatbelt, “Hi.”
“What was that about? Was that about that boy?”
“Mom.”
“What? Isn’t that him?” She pointed to the entrance of the school, where a group of boys were piling out as they hit each other.
“Mom! Put your finger down.”
“He’s cute.”
“That’s what everyone keeps telling me.” She dragged her hands down her face, slumping in her seat to avoid any stares.
“He’s looking at you!”
“He is not, would everyone stop with that?”
But curiosity got the better of her, and she sat up slightly, peering through her fingers to see Luke, their gazes meeting for the third time that day.
“Drive, please.”
⎯⎯⎯ ౨ৎ ⎯⎯⎯
The following week, everything seemed to slow. Luke talked to her more, his fleeting glances behind him, turning in his seat to “face his friend” when in reality all he wanted to do was talk to the girl who seemed to know hockey like the back of her hand.
Maybe he was growing feelings for her, maybe he liked it whenever she would try to hide her laugh whenever he or one of his friends said something ridiculously stupid, so what if he did? It’s not like anything was going to happen; she barely paid attention to him, acted as if he were just another one of the annoying guys who didn’t care about his academics.
But he was determined to change that.
He walked into second period with a plan formulating in his head, nodding to his friends as he took his seat, already taking his pencil case out. He glanced behind him a few times, failing at covering it up, unable to keep the smile off his face as he saw her focused on their homework that was due by the end of class.
“Y/n.”
He watched as her head popped up, eyebrows furrowing as she stared at him, “Luke.”
“What’d you get for number 10?”
“Uhhhh, 43.”
He nodded, turning back to his work, waving his friends off when they made snide comments in his direction. He scribbled down work that he wasn’t sure was correct, but made sense in his head, which at least counted for something.
His pencil tapped restlessly as Mrs. Cooper started teaching, something about the law of sines, spacing out with every word said.
It wasn’t until halfway through class that he started focusing again, noticing the stack of two papers that were placed in front of him, sheepishly turning around to hand one to the girl behind him, who was already giving him a tired expression, “Sorry.”
Y/n didn’t say anything, just nodded and grabbed the paper, knocking her pencil off in the process. She sighed inwardly, eyes darting to the writing utensil on the ground, trying not to direct Luke’s attention to it.
Her cheeks flushed as her foot reached for it, accidentally hitting his foot just as she was about to kick it closer. She buried her head in her hands, avoiding his gaze, unbeknownst to the wide grin on his face. She felt a tap on her desk, peeking through her hands to see him holding out her pencil, “Here, gorgeous.”
His voice was soft, low enough that only she could hear his exact words. She was sure she couldn’t get any redder.
She took the pencil from him, their hands brushing as she did so. It was innocent, nothing more than a guy being nice to her, but still, she had butterflies erupt in her stomach, a shy smile on her face as she thanked him, watching as he turned back to the board.
It was only a few minutes later when Luke spoke again. Mrs. Cooper had walked out of the room to talk with another student, leaving the class to their own devices, in some cases literally. He turned just slightly, facing Charlie and Brandon and a few other guys that he was teammates with, “So game tonight, yeah?”
“Yeah, bro. Let’s hope we don’t get our asses whooped like last time.”
Luke shot him a look, as if he was trying to hide how badly they had been crushed in the previous game from y/n. She didn’t even bat an eye at the conversation, her face back to its normal color, pulling out her phone to check something or to do anything but her work.
He sighed, “Y/n.”
“What?’ This time, she didn’t even look at him, keeping her stare on her phone. She wasn’t sure where Luke’s sudden insistence to talk to her came from, and she wasn’t sure how she should feel about it. Giddy? Put off? Annoyed?
“You should come to the game tonight.” His voice was smooth, cool, and collected, like whatever her answer was going to be, he’d be indifferent about it, but the way his eyes moved around her face, searching for any hint as to what she was about to say, betrayed his attempt to hide his nerves.
“Yeah sure.” She snickered, finally tearing her gaze from her phone. “Let me get right on that, Hughesy.”
He frowned, his hand stilling from where he was spinning his phone around, “Why not?”
Charlie shot him a look, but once he caught whiff of his friend’s intention, he played along, “No, really, y/n. You should come. It’ll be fun.”
“Okay, 1. Since when do you talk to me, Charles?” Charlie blinked, caught off guard by her sudden tone change, “And 2. Need I ask again, why do you want me to come to this hockey game of yours? I have a million other things to do tonight.”
Luke shrugged again, “Just think about it.”
⎯⎯⎯ ౨ৎ ⎯⎯⎯
She ended up skipping third period, who needed to go to chemistry anyway?
She wasn’t sure what she should do, go to the game or not? Think something of Luke being worried about her and her absence, or don’t? Keep thinking about the way Luke called her gorgeous, like he was sure of it, or block it out of her mind forever?
Wilsher and McCroix were hanging around in their classroom when she entered, the room void of students, and Ms. Reed sat in the back. She spent more time in here than in her office, which only concerned y/n the tiniest amount.
“I need your guys’ help.”
The first thing the two teachers noticed was the soft blush to her cheeks, the way she seemed out of breath even though her trig classroom was a few doors down. The first thing Ms. Reed noticed was the smile that tugged on her lips, acting like she wasn’t in a full-on mental crisis.
“What happened?”
“Luke. Happened.” She breathed, sitting in one of the chairs, the other three gathering around the front of the table.
“Spill.”
She stared at them for a second, trying to gather her thoughts, “Why does it feel like I’m at a press conference right now and I just had a great game?”
“Y/n.”
“Right, right, sorry.” Her cheeks heated, overcome with embarrassment, she reached for her water bottle to have something to fidget with. “We brushed hands.”
“Stop, you did not.”
“That’s lame, this isn’t middle school or a high school romance something, give us something good.” Wilsher interrupted, looking at her expectantly.
“He wants me to go to his game tonight? And he might’ve, sort’ve, maybe called me gorgeous.”
She shrank in her seat as the three adults gasped and squealed, “Can we not make this a big deal?”
“Oh no, we are absolutely making this a big deal, what do you mean?”
“You have to go to the game, right? Please tell me you’re going.”
“I don’t know, it’s a Thursday, I got homework-”
“We all know that’s bull. You have no homework, I didn’t give you homework, you always finish your trig homework, you have a test in two of your other classes, and in the other classes, you never get homework.” Wilsher gave her a blank stare, almost daring her to say no to the invitation.
“Guys-”
“You’re going.”
“I’ll think about it.”
“Can we move on from the game? Let’s talk about how he called her gorgeous.” Reed sighed, conveying how much his words meant more than the game.
Y/n flushed again, her cheeks in a permanent state of red.
“She’s blushing.”
“You like him.” McCroix teased, patting her shoulder.
“So what, maybe I do!”
“Knew it.” “Called it.”
Y/n just rolled her eyes, picking her bag up, “I’ll see you guys tomorrow.”
“Go to the game!”
⎯⎯⎯ ౨ৎ ⎯⎯⎯
She ended up going to the game. Chloe and Stephanie went with her, well, more like they dragged her out of the house into the back of Stephanie’s sister’s car.
What was even the point of going to this game? She’d make sure they would sit far enough back, out of sight from Luke and the rest of his team, so no one would know she was there. She’d follow the puck lazily, not really caring who scored or who won, but deep down, she knew she’d want to see Luke hit it into the net, celebrating with his teammates. She’d spend time outs and intermissions on her phone, acting like it was a chore even to be there at all.
Chloe and Stephanie looped their arms through hers, the three of them making their way into the arena. She shivered slightly at the temperature change, pulling her sleeves down to cover her hands as they walked to their seats, y/n narrowing her eyes when she saw where they were leading her.
“We’re not sitting behind the bench.”
“Y/n-”
“No, I’m not. Be lucky I agreed to come anyway.”
“She’s got a point.”
Chloe just huffed, allowing the two to redirect their path, heading towards seats that were higher up and out of the line of sight of anyone sitting on the bench.
As much as she tried not to, the whole game her eyes were focused on him; wherever he went on the ice, wherever he sat on the bench, wherever he came out after intermission, that’s where her eyes would be. She didn’t admit it, not even to herself, but her friends knew, smirking every time she would lean forward when he got close to scoring.
“You know, you make it too obvious,” Stephanie murmured, wrapping her arm around y/n’s shoulder, walking out of the arena a little after the game ended.
“Make what too obvious?”
“You like him. Please stop trying to convince us, and yourself, that you don’t.”
Y/n only sighed, fidgeting with her fingers, “A little.”
“A little?” Chloe scoffed.
“This is a conversation I need to have when I have some food in me. Can we please stop to get food?” She begged, slightly pouting.
“Fine. But you’re not getting out of this conversation this time.”
They waited a while before Stephanie's sister arrived, and right when they were about to climb into the car, she heard a voice behind her, one that she only heard within the walls of her Trig classroom, “Is that y/l/n?”
Her eyes widened, Stephanie and Chloe grinned and turned to face the voice, but not before they were pulled into the car, y/n already pressuring Sam to drive.
“You guys are never going to let me live this down, are you?”
“Nope.” “Not one bit.”
⎯⎯⎯ ౨ৎ ⎯⎯⎯
She woke up groggy that morning, moving through her morning routine with the speed of a sloth, slinging her backpack over her shoulder, bleary-eyed, walking through the hallways. It was moments like these where she was thankful to have such a chill first period, a place where she could relax, and her teachers wouldn’t yell at her if she fell asleep 5 minutes in.
Wilsher looked at her with an amused look, handing her a water bottle from the small fridge she had in the corner of the room, “Have fun last night?”
“I’m never letting you talk me into going to a game on a school night. That was brutal.” She plopped down in her seat, the condensation from the water bottle already seeping into the wood of her desk.
“Did you see him?” McCroix walked in next, that stupid grin she got whenever something interesting was about to happen in one of her students' lives.
“Yes.”
“Did you talk to him?” She looked up as Ms. Reed passed through the door like she’d been waiting for her moment to enter.
“No. Who do you guys think I am? It took me weeks to even tell you guys my favorite food is pizza.”
“Besides the point. You’re never going to date him if you just stare at him longingly.”
“I do not stare at him longingly!”
“I walked in there one time to hand Cooper some papers, and you were drilling holes in the back of his head with your eyes.”
“I was spacing out,” she defended weakly, chin resting in her hand.
“Mhm, whatever you want to tell yourself. Now… we talked to Cooper, and we came up with an idea so Luke can find out you were there.”
“You guys are way too invested in this.”
The three of them stared at her, blankly, blinking slowly before laughing, “Of course we are.”
“Get a life.” She grumbled but couldn’t hide the smile that was growing on her face.
They continued to talk for the rest of the period, about the plan and about whatever homework they had last night, barely noticing the time passing after the bell rang.
“Shit-”
“Shoot!”
“Right, shoot. I gotta go, bell’s about to ring in a minute and I am not going to be late.”
“To see Luke!” They all teased, before looking back at their computers when y/n gave them a look.
She gathered her things, heading out the door and down the hallway towards Mrs. Cooper’s room, stepping inside seconds before the bell sounded. She maneuvered her way through the desks, walking down the aisle to her own, passing by Luke before sitting.
“Oh- I was worried about you.” She furrowed her eyebrows at his statement, cocking her head more or less to herself as she pulled out her notebook.
“Why…?”
“I don’t know, you were going to be late. You’re always like the first person here.”
Charlie leaned over, tugging at her sleeve, “Yeah, he was really worried. You know, so worried that I think he likes you.”
Y/n paused midway through grabbing a pencil from her bag, peering up through her lashes to see Luke’s already red face, turning to face his phone in front of him. A light pink dusted her cheeks too, continuing her actions like the thought of her crush liking her wasn’t admitted out loud by his closest friend.
“Do you ever shut up?” Brandon called, eyes looking between the three of them, but no less amused than his two friends.
Charlie shrugged, already moving onto a new task, no doubt texting someone as his thumbs moved across the keyboard on his phone.
It was silent for a few seconds, everyone around them doing their work and chatting with their friends, but the back left corner of the classroom, sprinkling into the center, was quiet, unusually quiet. Y/n fiddled with her pencil, eventually reaching for her own phone to type a message, the three-person group chat with her, Chloe, and Stephanie, somewhat messy, filled with typos and grammatical errors the other two weren’t used to seeing.
“We ned ti alk assap at lunch!”
She could feel her phone vibrating in her pocket, but she paid no mind to it, eyes completely focused on the task at hand - do not do anything embarrassing.
“Y/n, come here.”
She got up, walking carefully through the backpack-littered aisle, trying not to stumble as she stepped over them. Luke watched her from behind, worry in his eyes like he was about to watch her get in trouble or be talked down to because of a test score, but all he could hear was her bright laugh, one that made his stomach flutter like a schoolgirl's giggle.
As she was walking back to her seat, she heard Mrs. Cooper’s voice, not loud but not trying to be quiet either, “How was the game last night?”
She only froze for a beat before continuing, calling out over her shoulder, “It was good. They won 5-2.”
She could hear three phones clatter as the numbers fell from her lips, looking back at the group of boys. Luke, Charlie, and Brandon stared at her, the few other guys in their friend group exchanging looks with each other, slowing their hands as they worked.
“See any cute boys?”
“Are we really talking about this in front of people?” Y/n flushed, more so than when Charlie’s stupid “You know, so worried I think he likes you” repeated through her head.
Mrs. Cooper just smirked as she went back to grading.
She only got halfway through a problem when she heard a cough, looking up to see Luke staring at her. “Hi?”
“So, you went to the game last night?”
She nodded, acting as if it was a casual thing to go to a random hockey game in the middle of the week, “Yep. My friends and I were bored, had nothing else to do.”
“Oh. So, did you see any cute guys?”
Y/n raised her eyebrow, “Maybe. What’s it to you, Hughes?”
He held his hands up in surrender, but jealousy swam in his eyes, “Nothing, nothing. Go back to your trig. I’ll stop bothering you.”
She smiled once he faced away from her, knowing that the stupid plan of her friends and teachers did work.
⎯⎯⎯ ౨ৎ ⎯⎯⎯
She did not want to be wearing this, okay, maybe that’s a stretch. When the idea of dressing cute today was brought up on the table, she was reluctant; she’d rather throw on a pair of sweats and her favorite hockey hoodie and go to school like she didn’t care what people thought about her. But then she put it on, and she felt cute.
Her jeans sat comfortably on her legs, the gray crewneck with “Canucks” written in blue lettering across her chest sat atop a white undershirt that peaked out along the color, and her hair tied up in a half-up half-down hairstyle with a blue ribbon Chloe had given her however long ago.
She knew this was a stupid, even useless, plan, but she went along with it. She couldn’t really be mad at how it turned out; she’d always favored being comfortable over cute when she went to school, maybe this was a nice change.
She walked the hallways of the school, her black Converse hitting the ground with each step as she made her way to Wilsher’s classroom, where they were already sitting, Chloe and Stephanie too.
She blushed heavily when she came in, eyes widening when they saw her outfit, “Look at you.”
“Okay, okay. You’re the ones who wanted this.”
“Do a spin! Do a spin!”
She did as she was told, dropping her bag so she could turn around. Chloe stood up, walking over to inspect her hair. “Is that the ribbon I gave you like two months ago?”
“Yeah, not my fault you never asked for it back.”
The other girl shrugged, twisting the fabric in her hand before letting go, taking a step back to look at her again. “He’s going to go insane when he sees you in this.”
“Shut up.”
“I’m serious!”
“Fine… I guess I look cute.”
“You guess? Girl, I’ve never seen you look hotter.”
“You guys are so annoying.”
First period flew by faster than she wanted it to, constantly fiddling with her crew neck as the nerves consumed her. She lingered in the classroom for a few minutes, waiting until the time between class starting and her arrival would be as short as possible.
She kept her head down as she entered the room, her eyes trained on her hands as she adjusted her rings before sitting down, unaware of Luke’s (and his friends’) gazes on her.
Charlie poked her side once she settled, hand extended over the side of his desk, “Y/l/n.”
“Yes?”
“You get dressed up for something special?”
She shook her head, not looking up from where she was tracing random shapes on the wood. They could see the small tint of pink littering her cheeks, causing them to urge Luke into saying something, anything. They were tired of him whining like a puppy every time y/n wouldn’t talk to him in class.
Luke didn’t know what to do. She looked beautiful, not that he didn’t think he was beautiful before this moment, but the way she seemed to have a softness about her today, like she knew she looked gorgeous but didn’t want to admit it.
He couldn’t deny that it flustered him; everything about her made him freeze up. She could brush her hair behind her ear, complete a problem in 30 seconds, or walk down the hallway, and he’d be in awe. He wasn’t sure if that should embarrass him or not, but at this point, he’d wear that like a badge of honor.
“Y/n/n.”
That caused her to raise her head, eyes widening at the nickname. Since when did he address me by a nickname?
She cleared her throat, nodding, “Yes?”
“You busy this weekend?”
“Uh, I don’t know-” she stuttered, eyes blinking fast as he watched her every movement, studying her as if he would have a quiz on her next period.
“We should hang out.”
Brandon coughed from next to him, giving him a look. There was no way this was how he was going to ask her out, not if he had a say in it.
“Right. Do you want to go on a date?”
If y/n was holding anything in her hands, the whole school could hear it clatter against the surface beneath her. She wasn’t sure what to say, if she should say anything, or nod her head. Luke saw the panic flash in her eyes, “We don’t have to if you don’t want to! I just thought-”
“No! I um- I would like that.” The two smiled at each other, stilling.
“About time.” Charlie rolled his eyes, typing away on his phone.
Luke hit him in the arm, y/n giggled softly, causing him to smile once again.
⎯⎯⎯ ౨ৎ ⎯⎯⎯
It was too cold to be standing out on the porch waiting for Luke to show up, but it beat having to sit with her parents awkwardly in the living room while they asked her questions about him. So here she was, in almost 50-degree weather, a light frost covering the ground as the leaves fell.
She hugged herself tightly, her jacket only providing her with a small amount of warmth. A similar pair of jeans adorned her legs, paired with a black long-sleeved shirt that did little to shield her from the growing cold weather.
She barely registered Luke’s car pulling into the driveway, too focused on shifting her weight from foot to foot, preventing herself from going frigid. It wasn’t until the door closed that she looked up, noticing his figure standing outside, a beanie on his head hiding his curls.
“Hi.”
“Hey.”
They stood there for a few minutes, neither of them moving, just watching the other’s movements, studying their faces.
She snapped out of the trance first, walking down the few steps that led to her front door to where he stood, unable to keep the smile off her face, “Hi.”
“Hey.” He repeated, chuckling softly. “You ready to go?”
She nodded, allowing him to lead her to the other side of the car, opening the passenger-side door for her. He climbed in seconds later, turning the heat on full blast to calm y/n’s shakiness, pulling out of her driveway to head to wherever they were going.
“You going to tell me where we’re going?”
He shook his head, grinning, “Nope. Top secret.”
“You’re insufferable.”
“Not enough to deter you from going on a date with me.”
“Touché.” She huffed, crossing her arms.
“How long were you standing outside for?” He stopped at the stoplight, eyes flicking over to her form, frowning when he noticed her hands still shaking.
“Uh, like ten minutes maybe? It beat waiting inside with my parents.”
He reached for her hand like it was second nature, as if they’d done it a million times before this moment, letting the warmth of his hand encompass the coldness of hers. He heard her sigh gratefully, continuing to drive as if nothing had just happened.
It was silent the rest of the way, y/n completely oblivious as to where they were going but paid no mind to it, watching as the trees passed, the lights changed from red to green or green to yellow, and the traffic decreased and increased.
“One question.”
“Shoot.”
“Does this involve physical labor because I’m not dressed enough for that, and I will not look cute once we’re done?”
“You might have to climb some stairs, but that’s it. And I beg to differ, I’m sure you’d look cute no matter what, gorgeous.”
She smiled as she rolled her eyes, going back to her window-watching and listening to the music that played softly in the car. She didn’t notice the fond expression he had, barely noticed the way his hand tightened around hers because he was scared that this, she, wasn’t real.
It didn’t take long for her to realize where they were once the building came into view, the lettering across it, and the red and white clothing the thousands of people standing outside in line were wearing. Her eyes widened, looking over at him, “Really?”
“Figured you’d like it,” Luke smirked, all too cocky, but neither of them cared.
“I wish you had told me! I would’ve worn my jersey.”
“Yeah, but then that would’ve given it away.”
The two walked hand in hand into Little Caesars Arena, y/n practically vibrating with excitement.
“You’re excited about this, huh?”
“Shut up, let me enjoy my hockey.”
He held his hands up in surrender, leading them towards the line, y/n curling into him as they waited in the cold.
It was the perfect first date. Nothing would ever compare.
⎯⎯⎯ ౨ৎ ⎯⎯⎯
It happened later that night, they were out at a small dinner after the game, sitting next to each other in a booth like a cliché high school movie. She didn’t mind; her head rested comfortably on his shoulder, and his hand was on her thigh. They’d finished their food ages ago, paid ages ago, but none of them had the energy to move even if they wanted to.
“Y/n/n?”
“Hmm?”
“Will you be my girlfriend?”
“Mhm.”
“Are you even listening to me?”
“I’m sleepy.” She murmured in response, curling into him more.
He laughed softly, resting his chin on her head, “Does that change your answer then?”
“Nope. I’d still say yes, but if I weren’t tired, I’d be a mess right now.”
“You still are one.”
“Say it again, and I'll take back my answer.”
“Yes, ma’am.”
She looked up at him, sleep evident in her eyes, but neither of them let it stop their lips from touching, Luke’s arm slipping around her waist to bring her closer.
⎯⎯⎯ ౨ৎ ⎯⎯⎯
She wasn’t sure when this tradition was established, all of them meeting in the morning in Wilsher’s room, her, Chloe, and Stephanie. And that wasn’t changing, not even when Luke’s hand was in hers as they walked down the hallway.
“Okay, so they might be a little overbearing-”
“I’ll be fine, I’m extremely charming.”
Y/n gave him a look, “Mhm.”
“I am too!” He gasped, offended, “That’s how I won you over.”
“I’m still regretting that decision.”
“No, you’re not.”
She grinned, looking up at him, “Fine, I’m not.”
He kissed her temple, the two of them coming to a stop right outside Wilsher’s classroom. She went in first, noticing how her two best friends were already sitting at a table, on their phones, and how her two teachers and her social worker were talking about something, most likely another student in their class.
“Hey.”
She watched as they did a double-take, looking at her and then noticing the figure behind her, the one who stood a few inches taller than she did.
“Okay, let’s not-”
“So this is the boy we’ve been hearing about.”
“Guys, seriously-”
“We’ve heard everything about you, Luke. Smart boy, mostly A’s.”
Y/n buried her head in Luke’s chest like she’d been doing it for years before this moment, like it was second nature. He laughed softly, his hands threading through her hair, keeping her head close to him. The five others smiled at them, exchanging looks.
“Treat her right.”
“Wasn’t planning on treating her wrong.” He admitted, looking down at her with a certain fondness.
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Sweet Like Wine
Ship: Astarion x female!human!reader/Tav
Summary: Your monthly bleed is over—just in time for you and Astarion to find yourselves with a bit of alone time. You might not be able to feed your vampire as easily, but there's another hunger for the two of you to satiate.
Word Count: 9,154 words of filth
Warnings: sexual content (18+), soft Astarion, vulnerable Astarion, slightly insecure Astarion, mention of past sexual trauma, pet names, Astarion still doesn't realize he's loved for more than his body,
18+ Warnings: vaginal sex, fingering, oral (f receiving, m receiving), touching over clothes, naked grinding, bite kink, blood kink, soft sex, creampie, aftercare, use of the words pussy, dick, cunt & cock, mentions of reader's period
Burns Like Rum (part 1) found {here}
Epilogue Cherry Blush coming soon!
Note: Thank you for all the love on the first part! I'm glad everyone loved it! Here's the second part :)
☟ Continue below the fold ☟
Rain was coming. You had smelled it on the air for several days now, an altogether pleasant scent that reminded you of fast-flowing rivers in a pine forest, distinctly earthy and cold.
The first day you'd smelled it, so had Astarion, stopping every few seconds to sneeze and then complain about his heightened sense of smell being trigged by weather.
You had taken to sleeping in Astarion’s tent with him over the past few days, enjoying each other’s company while you waited for your period to end. He was enjoying getting fed nightly, and you were enjoying learning about him after he gave you the night of your life.
Well, enjoying was perhaps not the right word for your experience. You were glad he trusted you enough to tell you about the things Cazador had made him do. You were grateful he felt safe enough to be vulnerable with you. But your heart broke every time he told you a little more, his voice low and tired and broken, reciting his past like it was a crime he was ready to be locked up for. And, by gods, how your hatred for Cazador grew.
It wasn’t like you had ever liked the thought of Astarion’s vampiric master. Anyone who had killed this man (who you weren’t quite sure how you felt about but knew you cared for more than anyone else you’d ever known) was evil in your book. But Cazador... Cazador made devils look like saints in your eyes.
You packed up the last remnants of your camp the morning after Astarion had whispered to you about his year encased in stone, slight trembles in his body and growing more violent the longer he'd talked. You'd held him close that night, holding his hand and sliding your fingers through his hair to comfort him. But now you were brooding in the weak morning sun, contemplating which way you'd most like to kill Cazador.
Not that you would—that right was Astarion's, should he wish it. If the time came and he decided he couldn't do it alone, well, then you'd employ one of your many planned strategies to make that bastard suffer for everything he'd done to Astarion and his siblings.
You had decided last night to move on from the place you'd been camped for over a week. You'd been there too long; people had begun to stumble upon your tents, and it was only a matter of time before someone realized Astarion was a vampire or that Gale had a weapon in his chest and decided to try and kill them.
Wyll had gone scouting last night before the sun had set and had reported a town in the distance—near enough to reach before sunset, but only if you got moving as soon as dawn broke. So, you got up early, woke up your grouchy companions, and started breaking down camp. You were on the road less than an hour later.
You walked beside Astarion, both of you weighed down by your packs, your hands swinging beside each other. The backs of your hands kept brushing. You were so distracted by it and the thought that maybe, just maybe, you would take his hand the next time they brushed, that you didn't notice the others watching.
A twinge in your side made you hiss and bring your other arm to it, on the place of an old scar. The pain was a familiar, soft throb—a telling sign that the storm you'd been smelling was getting closer.
"Is your wound still alright?" Shadowheart asked you, shocking you out of your mind, and gesturing to your abdomen. The gash had healed up nicely, little more than some light, pale scarring now, but the phantom pains lingered. They struck at random and had become a cause of concern amongst the entire camp.
You nodded. "It's fine. I haven't felt anything yet. It's just...old wounds acting up."
"Let me know if you need anything," she said, which was a phrase you'd heard at least three times a day since the day you'd gotten the wound. This time, though, she sounded even more worried than normal.
You supposed she had more than enough reason to be worried—this was the first time you'd done this much moving since you'd been injured. You hadn't had to travel or hunt since then, and even your nights with Astarion between your legs kept you on your back with your calves thrown over his shoulders.
Not that Shadowheart knew that, exactly, but she had extracted a promise out of him not to let you do anything that might reopen the wound, which also meant Astarion had refused to let you take him in your mouth, afraid that such a position would be too much for you.
"I'm okay," you promised her, trying to keep the exasperation out of your voice.
You must have failed at doing so, because Astarion whispered a moment later, "She's just trying to keep you safe."
You deflated a little. "I...I know. I'm just...tired of being treated like a glass doll. I'm healed. I can handle myself."
"I know, she's just worried... We're all worried," he added, and you knew that 'we' included himself, a recent development when it came to any kind of emotion.
"I'll be okay," you promised.
"You better be," he said, finally taking your hand in his. Giddiness spread through you like wildfire. Astarion smiled at you and you got the feeling he knew you'd been dying for that to happen. "You're too cute to die on me now."
You rolled your eyes. "Well, I'll try my best."
Astarion looked at you with a fondness that had recently appeared in his eyes; it was a look you loved, one that made your entire body grow warm every time you caught him looking at you like that. You leaned into his side, letting him kiss the top of your head gently. You smiled up at him, ready to thank him for the open display of intimacy.
And then something in his eyes changed, a sparkle in the crimson. A smile twitched on his lips. For a moment, it looked like he might say something—only for his gaze to slide to the others, walking just ahead of you as if they knew to give you privacy. The sparkle to fizzled out.
"What is it?" you asked quietly.
"Walk faster, friends!" Gale called back to you. "The clouds aren't promising, that storm you've been complaining about will be upon us soon!"
"Later," Astarion said to you. "I'll tell you later."
He squeezed your hand and quickened his pace to catch up with the rest of your companions.
~❊~
Mercifully, the long day of traveling wasn't made longer—or more painful—by a fight of any kind, only by the miserable weather. Halfway through the day, the rain had begun in the form of slow, fat raindrops. By now, it was coming down fast and hard, almost painful when it hit your body, even with your many layers of clothing.
Wyll's estimation had been a little generous; the sun, though you couldn't see it, had already set by the time you got close enough to see windows in the buildings of the town, almost every one with a candle glowing on the windowsill.
"Isn't that just quaint," Astarion murmured as the muddy river of a dirt road beneath your feet slowly transitioned into cobblestones covered in at least an inch of water. "Gods, I hope this place has a good tavern."
"I hope it has an open inn," you said. "Everything hurts."
"Your wound?" he asked, frowning and automatically putting a hand on your abdomen.
You shook your head. "No—that's fine. Just my muscles are killing me from all this walking, and old injuries are acting up. It's the storm, I knew it was coming."
Lae'zel frowned. "Are you capable of sensing the weather? Why haven't you used this trick before?"
Shadowheart giggled behind her hand and got control of herself only when the gith's head snapped toward her.
You blinked. "It— I'm not actually able to do that, Lae. It's just that old wounds ache before storms. Lots of people have that. It's...kind of an old wives' tale, I guess?"
"She was right, though," Gale said, squinting up at the sky. His hood fell from his head. "The storm came when she thought it would."
Astarion sidled closer to you, smirking, and curled a hand around your waist. Under his breath, he teased, "Perhaps I...kept you awake too late last night, didn't I? Feeling a little soreness between those lovely legs?"
You rolled your eyes but leaned into his touch. "Don't you start."
The group walked further down the main thoroughfare, slowly spreading across the street, each one looking up at the signs on the buildings. Almost everything was closed: a few tailors' shops, a perfumery, an outdoor food market with empty vendor stalls.
Music drifted from one of the few open storefronts. Warm golden light spilled out onto the cobblestone street through the windows. Raucous laughter joined the jaunty sound of a bard's music. Inside, you could see tables packed with patrons, all singing in various states of drunkenness—and all safe from the storm outside.
Wyll gestured forward. "There's your tavern, Astarion."
Astarion grinned, his fangs flashing in the low light. "Who's up for a drink?"
"Maybe later," you said.
Pointedly, Wyll added, "Once we find an inn and rooms for the night. I'd rather not make camp out here in this damp."
"What, the Blade of Frontier's doesn't know how to rough it through bad weather?" Astarion teased.
"Stop taunting him and let's find an inn," you said, nudging him gently. "I just...want to go to bed, really."
"Alright," Astarion said, that sparkle back in his eyes again. "A good, long night's rest it is, then."
You moved further down the street. Karlach spotted the inn a few doors down and the group filed in through the door, just as thunder clapped overhead. You dragged Astarion into the building with you just before the rain could get worse. The clerk at the desk looked a bit annoyed to see you.
"We don't have enough rooms for all of you," they said, counting the seven of you.
Karlach pulled a face. Before she could say something accidentally indelicate, you pushed to the front of the group.
"How many rooms do you have available?"
"Just three," they said after a quick glance down at the open guestbook in front of them. "And they're not all next to each other."
You glanced back at the others.
"We could take two," Gale suggested. "Split us the old-fashioned way of ladies in one and us gents in another?"
Automatically, your gaze slid to Astarion; both of you appeared to have deflated at the idea of being separated. Wyll, of course, noticed.
"We'll take three and give the third to the lovebirds," he said, teasingly nudging his elbow into Astarion's side. "I don't think I have the heart to separate them."
"I find it agreeable," Lae'zel said with a decisive nod. She turned back to the clerk. "We'll take all three."
"It'll cost you," the clerk warned.
Astarion pulled out a money purse—no doubt stolen the last time you visited a merchant. "We can pay," he promised with that charismatic grin of his that made your stomach do flips.
He moved to the desk, sneakily grabbing your ass and squeezing as he walked by, and counted out the coins for the clerk. They counted it again and stood up only when they were satisfied.
"Come with me," they said. "I'll show you to your rooms."
~❊~
After saying goodnight to the others, escaping their teasing about keeping it down in the night for the sake of your poor neighbors, Astarion held open the door to your room to you. You got inside and glanced around; as far as rooms went, it wasn't awful. It was sparsely furnished and a tad cold, but there was a recently lit hearth and plenty of blankets on the beds. It was on the uppermost floor and you could hear the rain pounding on the roof, a brutal sound that made you agree with Wyll's earlier sentiment about staying out of the weather.
Both of you took off your soaked cloaks and hung them on the hooks next to the door to dry off. You set your stuff down on the ground, pulled the blankets off of one of the beds, and dropped them onto the other.
"Sharing a bed, are we?" Astarion asked with a little giggle, wrapping his arms around your waist and nuzzling into the back of your neck.
"Don't act like you don't want to," you said and leaned back into his chest. "I know you, Astari."
He hummed happily into your neck. You could feel the smile on his lips as he kissed the place where your neck and shoulder met. The nickname always made him happy, often bringing a pleasant blush to his cheeks after he'd fed.
If you had reached that point yet, this would have been the perfect time to say "I love you" and turn to kiss him over your shoulder. But you hadn't said it yet, and he hadn't said it, and you knew it wasn't time yet. You didn't know much, but you knew Astarion wasn't ready for that just yet.
You relaxed into his arms even more, practically melting against him. He planted soft, dainty kisses on your neck and shoulder. "What were you gonna tell me earlier? You had this look in your eye, like you were really excited."
Astarion's grin was audible in his tone as he whispered in your ear, "Your period's gone."
You frowned. "How do you know that and I don't?"
"Your scent's changing. I smelled it this morning, a weak scent of your menstrual blood, nearly gone. We've been traveling so you haven't been able to check recently, but once we got to the town I knew it was gone."
You shook your head. "Smell alone and you already know me better than I know myself."
Astarion scoffed. "Smell alone? Darling, I know your body better than anyone after this past week." His hand drifted down and slid between your legs, cupping you gently. Instantly, warmth flooded you and pooled in your cunt. "I know your shape...your taste...your smell..." He kissed your neck, pressing down on your clit through your clothes. You whimpered lightly. "I know exactly how to make you moan for me and I know what every moan means."
With every ounce of self-restraint you possessed, you grabbed his wrist to stop him. "Let's get settled in first, Astari. I need to get out of these wet clothes and I really should wash the grime and rain off me before we do anything and—" You stopped suddenly and turned in his arms, resting your hands on his biceps. "I don't have my period anymore."
Astarion blinked at you. "Why do you sound so sad? You've been in pain for the past week! Shouldn't you be glad it's gone?"
"Well, I suppose," you said, shrugging. You toyed with his collar, playing with the fabric between your fingers. "But I...I can't..." You sighed. "You can't feed from me."
His face softened. He gently took hold of your neck, brushing his thumb over the place he usually drank from. "Of course I can still feed from you... It just...takes a bigger tole on you now. Ah." He paused. "I see what you mean now."
You nodded. "It's back to being bloodless, and our fun's done."
Astarion chuckled deeply. "Oh, is that what you're sad about? No more loving little kisses between your legs from your vampire?" He wrapped his hands around your hips, squeezing them and pulling you flush to his body. "We can have a different kind of fun, my love, and it doesn't take your period to convince me to eat you out."
You heard him dimly, but didn't process anything after— "My vampire?"
Something in his face changed. A little bit of the light in his eyes seemed to fade. After a moment, he turned his face away. His body tensed in your arms. "Well, I...I thought that.... M-maybe after..."
You cupped his cheeks and turned him back to you. You kissed him softly, wanting to chase away every ounce of the self-doubt on his face. "I like the sound of that, Astarion." You brought a hand down to clasp his. "As long as I get to be yours, too."
"Darling," he murmured against your lips, seconds before kissing you again. His tongue pressed against your lips and you opened them to let him in. You wrapped your arms around his waist and he moaned softly into your mouth. His relief at your answer slowly relaxed his muscles and made his kiss incredibly tender. You returned his quiet moan with a soft, content sigh into his mouth.
When the kiss broke a few moments later, though it felt like an eternity, you immediately laid your head against Astarion's chest, hugging him tightly. He smoothed his hand over your hair, holding you close to him. He kissed the top of your head in a way that seemed almost domestic for him.
You closed your eyes, settling against his chest. The smell of him and the feel of his body against yours and his hand in your hair was enough to nearly lull you to sleep. And yet...
"I'm in wet clothes, and I'm very tired of being wet—unless it's you making me wet," you said, only half-aware of what you had said until you felt Astarion giggle into your hair.
"You're right, we should change and clean up," he said quietly, though he seemed just as reluctant as you to let go. "Then we can have our fun...and you can get all of me, like I promised you a week ago."
You hummed. "Gods, I'm looking forward to that."
"See? It's not all bad that you're not bleeding anymore," he teased, kissing your cheek.
You finally separated. Astarion dug through his pack until he found his usual shirt and pants. He closed the window's curtains and then you stripped where you stood, peeling the wet clothes off your skin. You walked over to the washroom, aware of Astarion's appreciative gaze on you, and scrubbed the dirt off your skin. You dried yourself off and Astarion joined you. It felt strange to watch your own reflection in the mirror but not see him standing next to you, even though you knew he was next to you, staring at you as he was apt to do.
You kissed his cheek and let your hand rest on his hip as you walked back toward the beds. You bent to rummage through your pack, only for his arms to circle your waist and pull you back up against his chest.
"Oh, darling, you're not going to need clothes for what I have planned," he murmured in your ear. He gently teased the shell of your ear with his teeth. You shuddered in his arms.
"Just jumping straight into it, huh?" you teased.
"I never waste time when I could be spending it with you," he breathed, letting one hand come up to cup your breast. You stumbled backward, sighing contentedly. "You like that, don't you?"
You whimpered. "More... Please darling, I..."
He chuckled and cupped both breasts in his hands. He squeezed them lightly and rested his head on your shoulder, looking down at your cleavage. "Hells, I love these tits, darling. So soft, like all your skin. So sensitive to my touch..."
Astarion began thumbing at your nipples. They perked up at his touch. He rolled them between his fingers, kissing your neck, sucking hard enough to leave marks. You whimpered under his touch.
"Does that feel good, sweet girl?" he asked, squeezing your tits a little harder. He massaged them in his hands, contentedly watching from his perch on your shoulder.
You nodded, leaning your head against his. After a moment, you asked, breathless but still forming words, "Can you suck on them?"
He moved around to the front of you, grinning happily. "Of course I can, darling." He gently sat you down on the bed's edge and kneeled before you, a beautiful sight. He spread your legs to sit between them and get as close to you as possible, glancing down at your exposed cunt as he did. "Gods, I can't wait to be inside you," he muttered, just seconds before he took one of your nipples in his mouth.
Astarion's mouth was an absolutely wonderful thing. You'd figured that out the first night and for the subsequent week that he was skilled with his lips and tongue, far more skilled than his kisses let on. His mouth around your breast was heavenly as he sucked on your nipple, lightly at first and then slowly adding pressure. You'd be lucky if your tits weren't bruised come morning. His other hand held your breast, kneading your flesh, rolling your nipple in his fingers. The coolness of the skin of his fingers was a relief against your hot skin.
He moaned as he suckled on you. He flicked his tongue over your nipple and then kissed the fat of your breast. You brought your hand up to his hair, scratching his scalp with your nails, and he moaned loudly. You whimpered as his sucking grew to be almost too much. He understood your sound and switched breasts, licking and kissing the one he'd just been groping.
You stared down at the beautiful man happily sucking on your tits: his eyes closed and his long lashes fluttering every so often, his pretty lips wrapped around your nipple, sucking your breast into the heat of his mouth. You carded your fingers through his hair, delighting in the way it curled around your fingers and around his ears.
A sudden idea had you moving your hand down to his ear. You touched it gently and he moaned loudly. You giggled and began lightly caressing his ear. His moans turned into whimpers as you neared the pointed tip. At last he popped off your breast and his head fell against your stomach.
"Oh, gods, darling," he whined. "Don't stop, don't stop, don't stop, that feels... Ohhh, that feels wonderful."
His little moan brought a rush of wetness to your core. You kept playing with his hair, hoping to draw another one of those weak whimpers out of him.
Astarion shuddered into your touch. He was panting heavily and moved shakily, but he still managed to get his hand between your legs. He slid two fingers inside of you with ease.
"Ohhh, sweet girl, you're so wet for me," he breathed. "Can I—?"
"Yes, please," you gasped, knowing instantly what he wanted to do. Your fingers left his ear and he ducked his head between your legs. He pressed a soft kiss to your clit. "More."
Astarion chuckled into your pussy. "Patience, dear." He began to suckle on your clit, the pressure alone enough to make you see stars. Then his tongue flicked over you in the way he'd learned you licked and you fell back against the bed, arching into his mouth. His hands came up to grip your hips and pull you closer to him.
He moved lower and pushed his tongue into your entrance. The two of you moaned in tandem and Astarion's fingers dug into your hip, hard enough to leave bruises come morning.
The sounds of Astarion's slurping became obscene, but you couldn't find it in you to be embarrassed. You only moaned louder as his nose bumped your clit.
Without warning, Astarion slipped his fingers back inside you. You arched into his touch, gasping as his fingers curled inside you.
"Astarion!" you groaned, grinding down on his face and fingers. He chuckled into you.
"That's it, my love, you're close," he murmured, staring into you and watching your walls clench around his fingers. "Just let go for me, you're almost there."
You moaned, writhing as he went back to sucking on your clit. His fingers found the right spot and you covered your mouth with a hand to muffle the near-scream that came out of you—a sound you had no idea you could even make.
"No, no, no," Astarion chided, fixing you with a look. "Don't you muffle those sounds. I want to hear you scream for me, darling."
You whimpered. You panted as your orgasm slowly crept up on you. Your hips stuttered and lifted off the bed—Astarion took advantage and slipped his arm underneath you, dragging you back to him and pressing his mouth back to your clit. He kissed it gingerly, occasionally flicking his tongue over it in the circles you liked so much. Sometimes it amazed you how well he remembered your body and your likes, even if you'd only told him once.
"Astari," you whined, the tight ball in your core very close to snapping.
"I've got you," he whispered. "Come on, sweet girl, it's alright. Cum for me. Cum on my face, darling. I want it. I want to taste you. That's it, that's it, that's it!"
You finished with a loud cry, your back arching, Astarion moaning into your cunt and his tongue lapping quickly to catch every drop of your release. He kept curling his fingers even as your walls tightened to the point of being difficult to move them.
Astarion leaned back, grinning up at you. His face shone; it was almost weird not to see blood on his face. He looked back down at your pussy, staring eagerly, licking your cum off of his lips. "You're so wet, darling. Gods, you'll be a tight fit, but I could slide in right now if I wanted to..."
You nodded very quickly, whimpering. "Please, Astarion, please, I want you to."
He raised an elegant brow at you. "Oh, do you, now?" You nodded, whining. "Say it, darling."
Your body twisted in a way that seemed impossible as you said, a tremendous blush on your face which you were trying to hide in the bed, "I want you to fuck me, Astarion."
He grinned toothily, his fangs shining. A deep sound that neared a growl emanated from his chest. "Again. Say it again, louder."
"Fuck me, Astari," you whined, a little louder than the first time.
Something in Astarion snapped. He pulled you back onto your feet and flush to his body, kissing you fiercely. It was almost harsh, his fangs nicking your lips. You hissed and Astarion pulled back. The desire—a mix of bloodlust and arousal—was clear in his eyes, but he paused to ask, "Are you alright? Did I hurt you?"
"I'm fine," you promised. "It's not like you haven't nicked me in more sensitive places."
"And you like it, every time," he teased, briefly kissing your forehead. He wiped away a small dot of blood on your lips with his thumb and licked it off.
You smiled at him. "What can I say, you've given me quite the biting kink."
Astarion chuckled. "Cheeky little pup," he murmured, brushing your hair out of your face. "Ready to continue?"
You nodded, unable to stop the happy grin that overtook your face at the idea of him finally taking you. A thrill ran down your spine as Astarion laid you back on the bed and crawled up to you, kissing you harshly. You were dimly aware of him pumping his cock between you.
He pulled away suddenly, glancing down his body. "Shit."
You frowned, trying to catch his eye again. "Darling? What's wrong?"
Astarion sighed. "In my...excitement, I may have forgotten a very important detail." He looked down at himself and you sat up and followed his gaze. His cock was half-hard, but not nearly enough to slide into you. You whispered a quiet "oh." In his embarrassment, Astarion refused to meet your gaze. He looked much smaller, like he'd curled up into himself. "Unimpressive, huh?"
The half-disguised anger and humiliation in his voice made your heart ache. You cupped his face, turning his face toward you. You kissed him softly. "Oh, Astarion... No, you're not. You are impressive, you're just not quite ready yet. You forget I've seen you before, fully hard after you feed."
"I think you're missing the point," he said weakly. He pulled his legs up to his chest, effectively hiding himself. "I can't fuck you like this, darling."
"You can once you've had some blood, but that's beside the point." You kissed his cheek, rubbing a hand through his hair. He leaned into your touch. "You're more than just sex, Astarion. Damn good sex, sure, but that's not all you are, no matter what anybody else—and especially your master—told you."
He turned to you, a strange look in his eyes. You took his hand, raised it to your mouth, and kissed the back of his hand. He leaned into you, resting his head on your shoulder.
"This is the second time you've had to say this, something like this, to me during sex," he said with a humorless giggle, a shadow of his usual one.
"And I'll say it as many times as you need to hear it," you promised, kissing the top of his head.
For a moment, it looked like he wanted to say something. Instead, he just blinked until the teary glaze in his eyes went away. "Thank you," he whispered, and he adjusted to kiss the spot on your neck he always drank from. He lightly scraped his teeth against your skin. "Do you want to do this?"
You hummed, leaning into his affection. "Yes, sweetheart. I want this. I want you. I want you very, very badly."
He smiled. "Lay on your side, darling. Let me lay behind you."
You did as he asked, relaxing into his hold and letting him manhandle you into the position he wanted. He pulled you flush against his body, his length pressing into you, his arm around your waist and holding you against him as if he was afraid you'd try to escape the moment he bit you. With his free hand, he brushed your hair off your neck.
"Are you ready, darling?" he whispered, dragging his teeth across the shell of your ear.
You nodded. "Mhm."
"Just relax for me," he breathed. He nuzzled into your neck and kissed the spot he was going to bite. "Right here? Your favorite spot?"
"Right there," you whispered. You put your hand over his and both of you (you weren't sure who moved first) twined your fingers together. He squeezed your hand gently before he sank his teeth into your neck.
Quiet filled the room, except for the rain on the roof, your steady breathing (only steady for now), and Astarion's sucking.
It had been just over a week since he'd fed from you this way, and the sensation was just as alien as it had been that first night you'd let him drink—two tiny shards of ice, the cold numbness spreading slowly through the surrounding area, preventing you from feeling any pain in his bite. Slowly, you acclimated to the sensation and it faded into a dull, throbbing pleasure.
He slid his free hand under your head, holding your head up and your neck steady. He gently scratched your scalp.
"Astarion," you moaned, squeezing his hand. He grunted, continuing his sucking. You focused less on the sound of it—which reminded you vaguely of sucking juice out of a dripping fruit—and more of the feeling of his body against you. "Enjoy this, sweetheart. Please, just for me."
He cuddled closer to you, humming, and you smiled as he let go of your hand to briefly squeeze your hip. Your smile widened when he took your hand in his again as quickly as he possibly could.
It didn't take long for Astarion to start getting into it. He began whimpering softly, so unrestrained you were certain he had no idea he was doing it. Slowly, his hips began rolling against you, gentle motions at first that grew more noticeable and more desperate the longer he drank.
His teeth still in your neck, Astarion began grinding his hardened length into the swell of your ass. His whimpers became moans and then animalistic grunts. He drank in time with every thrust against you and slowly you were reduced to those two sensations.
Throbbing overtook you. Your head was pounding, just slight enough for it to be ignored, and need pulsed in your cunt. You could feel your juices coating your thighs and the dull throbbing in your clit. But the rest of your body was growing pleasantly numb. Your extremities began to tingle.
Astarion's gulps slowed down and his thrusting became feral. You moaned once, very loudly, as his cock slid briefly between your legs and rubbed against your pussy. Your moan spurred him on and he adjusted to keep grinding himself on your thigh.
A few more swallows of blood was all it took for the edges of your vision to get blurry. Your eyes fluttered shut; you didn't have the strength to open them again. You could no longer feel your fingers and you were only partially aware of your hand slipping out of his. But Astarion was incredibly aware of it; he stopped drinking and twisted around you to lay in front of you to check on you.
Your head dropped to the mattress without Astarion's hand holding you up. A sudden wave of dizziness overtook you and you groaned quietly.
"Hey, hey, hey, look at me," he said, cupping your cheek. You opened your eyes. "There's my girl. How are you doing? Feel okay? Did I take too much?"
"Slow down on the questions," you said, "and hold me."
He chuckled and scooted closer, pulling you into his arms. He kissed the top of your head. "But are you okay?"
You nodded. "Give me a minute and I'll be right as rain."
He giggled. "Right as rain..."
You rolled your eyes. "What can I say, the storm's got me thinking." You tucked yourself into his arms, your lips against his chest. You kissed his skin softly. He hummed happily and you continued, nipping at his skin. Now that he'd fed, bruises started to form under your lips.
"I'm okay now," you said after a few moments. The throbbing in your head had eased up and you no longer felt like you were about to pass out.
"Not dizzy anymore?" he asked.
You shook your head. "I'm alright."
He smiled at you; gods, that smile was gorgeous. "Well, now, dear. Let me return the favor..."
You blinked at him. "Favor—? Oh!"
Astarion's mouth was back on your breasts, this time leaving hickeys all over your skin—and tiny, bloody pinpricks from his fangs—that matched the bruises you'd left on him. You whined, gripping his hair tightly.
He grinned against your skin. "Oh, darling—I know. I know you want me. Your body and I have kept you waiting long enough, haven't we?"
You put your hand on his chest. "Wait, darling. Let me..." You slid down his body and gripped his cock in your hand. He groaned loudly, bucking his hips into your hand.
"Oh, darling, that feels..." He moaned. "Gods."
"It's about to get better, if you'd like?" you asked. You kissed his thigh. "Do you want me to?"
Something in his face changed, his features softening. You fancied that you could see some of his walls come down in his eyes, but you chalked it up to your hopeful imagination. But then he was nodding and whispering, "Yes."
You kissed around his base, watching him shudder every time your lips touched his skin. You locked eyes with him and pressed your lips to his base. He whined, high and needy, throwing his head back. You smiled; you'd never heard him make that sound before, but I wanted to hear it again.
You moved up to kiss his tip. A groan came from the back of his throat. You gave his head a small lick and watched his entire body shudder with pleasure.
"Ready?" you asked him, placing another kiss to his length.
"Yes," he breathed, looking down at you. "Yes."
You licked the underside of his cock, from base to head, then took his head in your mouth and sucked lightly. He whined the entire time, growing steadily louder until he was moaning. You took him deeper and he threw his head back again, swallowing harshly. Gods, he's so pretty when he's losing control... You reached up and took his hand, squeezing gently.
He bucked his hips into your mouth. You made a soft sound of slight complaint, surprised by the motion. "S-sorry," he breathed, his chest heaving. His voice was tight, the muscles of his abdomen tight. "You just... Gods, you're good at this. You are...amazing."
You squeezed his hand until he looked down at you, your question was in your eyes: are you alright?
"Keep going," he urged. "I'm— I'm more than alright, darling."
You sank down further until he hit the back of your throat. You moaned to feel him twitch in your mouth; you weren't expecting the breathy gasp that came from him. You did it again and his hand left yours to thread through your hair, putting the slightest amount of pressure on you.
"Is this okay?" he asked shakily, struggling to get the words out through his heavy breaths.
You winked at him and he groaned, the sound feral. He held onto your hair for dear life and you kept sucking, licking the underside of his cock every chance you could. Occasionally, he bucked his hips desperately, alternating between gasping for breath and whimpering your name between moans that verged on sobs.
Astarion jerked his hips, his cock kicking up. You took advantage to swirl your tongue around his tip, tasing his pre-cum. He leaned up on his forearms and you saw the tears on his waterline. Concerned flooded through you. His face was relaxed into an expression of pure ecstasy, but...
You pulled off of him. "Astarion? Are you okay, sweetheart?"
His chest heaved, glistening with sweat, while he gasped for breath. "I— I'm okay. You're wonderful, darling, absolutely..." He beckoned you up to him with two fingers, that dominant look back in his eye. You did as he ordered without question. "Come here. As much as I love this, I need to fuck you."
You whined. "Astari, please. Please. Please, I want you."
"Look at you, begging for me," he cooed, his hand sliding between your legs. He rubbed your clit and you arched into his touch, moaning wantonly. "There she is. That's it, darling, just feel good for me."
You leaned into his chest. "Astarion! I need you. I need you to fuck me, please, gods."
Astarion chuckled and pulled his hand away from you. He gently laid you on your back and crawled over you. He kissed you deeply before sitting back and lining himself up with your entrance. Your breath caught in your throat. Anticipation and excitement mixed in your stomach.
Astarion placed the head of his cock against you and then looked up at you. His face was fond as he met your gaze. "Are you ready for me, darling?"
"Yes," you breathed. "I— Oh, gods, yes!"
"Tell me if it hurts," he whispered. He kissed your forehead briefly.
You watched him move, slowly bucking his hips forward to push his cock inside of you. His eyes fluttered closed at the feeling. You forced yourself to remember to breathe as he bottomed out, your walls stretching to accommodate him; he finally let out a deep groan from the back of his throat.
"Darling," he moaned, leaning down to you. You reached up, putting your hand in his hair, and brought his head down to you. Once again, you weren't sure who moved first, but suddenly his lips were on yours.
It was a gentle kiss that was fitting for his slow, shallow thrusts. The two of you panted into each other. He put his forehead against yours, glancing down and watching him slide in and out of you, whispering in Elvish at the sight.
You wrapped your arms around his shoulders. "Astarion... Oh, gods..."
"You feel so good," he groaned. "Darling, I— Ohhh, sweet girl." He bent down to lick the small blood spots off your breasts. He moaned sweetly. "You taste even better when I'm inside you, my love. You taste sweet—like a delectable wine."
You whimpered. "I don't mean to deprive you of my blood, dear, but please please kiss me."
He chuckled and kissed his way up your neck, stopping briefly to lick your already-closing puncture wounds, before he kissed your lips. His mouth tasted vaguely of iron.
Your walls tightened around him. He was rubbing inside of you in just the right ways, hitting pleasure spots that his fingers had already made tender. His thrusts were still gentle, not enough to make you see stars but enough to make your entire body relax and give in to the pleasure.
"You're wonderful, darling," he murmured. He reached up to roll your nipple in his fingers. "You feel so perfect around me. So tight...so wet...so eager... Gods, darling, yes, just clench around me like that."
You threw your head back and he immediately descended on it, kissing and licking and nipping at your skin. You could feel the bruises that you would find in the morning.
"Faster," you told him. "I can take more than this, Astari."
He grinned and you were moaning seconds later as he sped up, his hips snapping into you.
"Can you take it harder? Deeper?" he asked. "You have no idea how hard it is not to ravish you, darling."
You cupped his chin and brought him back up to your face. You kissed him hard, more tongues and teeth than anything. You met his gaze and whispered, "Then ravish me."
Astarion pushed his lips back to yours, grunting animalistically, and slammed his cock into you. You cried out, clinging to him desperately as he fucked you relentlessly, his hips snapping against yours, his pelvis grinding against your clit with every thrust. The head of his cock kissed your cervix every time, making your entire body shudder. You began meeting his thrusts and he chuckled, one hand gripping your hip to help keep you up.
You threw your legs around his hips and both of you groaned at the new angle. Astarion muttered to himself in Elvish, his eyes rolling into the back of his head. You kissed him, bringing him back to you. He smiled, kissing your forehead.
"Aren't you gorgeous?" he whispered to you, staring deep into your eyes. There was an alertness there that you hadn't noticed the first time he'd fucked you like this, out in the woods that night.
You reached up to cup his cheek. "You're quite handsome like this, Astarion," you murmured. "You always are."
He smiled softly at you and turned to kiss your palm, his hips stuttering for a moment. He grunted and pushed deeper into you, making you cry out again. He glanced down your bodies and watched the two of you thrust into each other.
"Gods, that's a pretty view," he murmured, his voice breathy. "Your slick shining on my dick...and, oh, look at that... The outline of my cock in your tummy. Gods, that's hot." He placed his hand on your lower abdomen where the bulge was and he pressed down. You whined, clenching your teeth and trying not to scream. He, of course, noticed. "Oh, that feels good, does it?"
You whimpered out a weak, "Yes!" He grinned and began pressing down on every stroke into you.
You gripped his shoulder, your nails digging in; you knew there would be scratches on his back and shoulders come morning and you were careful to avoid his scar, knowing just how painful that would be if scratched.
He kept losing his rhythm every so often and you knew he was getting close; thankfully, so were you.
"I'm close," you whispered. "I'm so close, darling."
On the next thrust in, he adjusted the hand pushing down on your abdomen so that his thumb could circle around your clit. "Does this help?"
You whined, nodding frantically. "Oh, Astari— Don't stop, please don't stop, I—" Your words faded into moans. He giggled.
"Don't worry, darling, I don't intend on stopping until you've finished around my cock," he whispered in your ear. Your entire body shuddered.
Astarion's thrusts grew a bit sloppier, but his thumb on your clit remained dedicated to making you cum. You were half-convinced the way he spoke as he gazed down at you adoringly would be enough even without the cock thrusting into you or the thumb stimulating you.
"Gods, look at you," he murmured. "Look at that body, responding to me so eagerly! Those beautiful breasts, perky nipples, all covered in my bite marks... That lovely neck, marked and still just barely bleeding..." He bent to lick the thin trail of blood. "These legs, wrapped around my waist, and that pussy just sucking me in." He brushed your hair out of your eyes. "And I could never forget this darling face, those beautiful eyes just staring up at me like I hung the moon and stars..." He pressed his forehead to yours. Softly, he said, "Come on, darling, cum for me. Cum on my cock. Let me feel you clench around me and lose yourself in me."
The thread inside you snapped. You arched off the bed and into his body. He wrapped his arm around you, holding you to him, whispering words of encouragement. You screamed as you came, clenching so hard around him it was a miracle he kept fucking you through it. He pulled his hand off your clit as soon as the feeling became too much, reading your body with ease.
"That's it," he whispered to you. "That's my girl. Easy, darling, breathe. You did so well. Do you mind if I—" He groaned, hips faltering for a moment. "Do you mind if I cum inside you?"
You whined. "Oh, gods, yes, please do! Cum inside me, Astarion, cum inside me, I want it!"
He moaned happily, kissing your neck fervently. He began rambling. "Hells, darling, you spoil me. Feeding me with your bleeding cunt for a week? Taking my cum the moment it's over? You needy, heavenly little thing." He kissed his way up to your jaw. You put your fingers in his hair. "Oh, you're so wet now, sweet girl. You've soaked me. You look so pretty around me. Oh, gods, you're so much tighter now— I'm not going to last much longer, dear. You're good, you're too good. My love, oh my love!" He lost his rhythm entirely, fucking you only with the need to cum. "I love this. I love every bit of this. I love—"
He cut himself off. He cried out, burying his face in your neck and his cock in your cunt. Warmth flooded you as he spilled himself deep inside you. His hips stuttered and flexed a few more times, his cock twitching inside you, before he finally let out a long breath and collapsed on top of you. Immediately, your arms wrapped around him and you held him tight to your chest.
As the two of you lay panting together, your mind was working on overdrive. He hadn't said it, but you'd heard what he wanted to say: I love you. The very same words you were dying to say.
At last, Astarion lifted his head. "Are you alright?" he asked. "I didn't hurt you, did I?"
You combed your fingers through his hair. His eyes fluttered. "Not one bit, darling. I'm perfectly fine." You kissed his nose and he giggled. You stared at him, your beautiful boy, for a moment, enjoying the feelign of his body actually being warm against yours for once, before you asked, "What about you? Are you feeling alright? Good, even?"
Astarion giggled. "Don't sell yourself short, my love, you're absolutely wonderful. I feel amazing. Content. Cared for. Loved." With every word, his voice got smaller, quieter. He seemed to retract into himself. You frowned.
"Where'd you go? Come back to me," you whispered.
He looked back up at you and the tears were back in his eyes, but this time you doubted they were tears of pleasure. "I'm sorry, I don't mean to..." He sighed. "I didn't mean to disappear on you. It's just...I'm used to that. I'm used to disappearing during sex, after sex... But I didn't do that this time. It was...different with you. It was nice. You've cared for me like no one else ever has. You...you paid attention to what I wanted, how I felt, what I liked. You weren't just using me for your own pleasure. I... It was like...you cared about me. I don't even know what to say! But, ah, you made me feel good, in a lot of ways. So... Thank you, darling."
You cupped his face and kissed him softly. "Of course I care about you, Astarion, I— I...love you."
He tensed up in your arms. A flash of panic passed through his eyes. You shook your head quickly.
"You don't have to say it back," you said hurriedly. "Not until you're ready. But I want you to know exactly how I feel about you. And...I love you."
He smiled and relaxed, melting into your embrace. "Thank you, my love. I...I'm not ready, not quite yet, but...thank you for respecting that. Here—let me cuddle you, I know how much you like that."
The two of you adjusted so that you could lay on your sides. You curled up in his arms and nestled your head into his neck. He carded his fingers through your hair, a gentle movement that was well on its way to lulling you to sleep. You reluctantly pulled yourself away, and only because you had adjusted and suddenly felt the cooling, sticky liquid between your thighs.
"We should get cleaned up," you murmured.
Astarion hummed. "Oh, yes, let me—" He reached for his shirt on the floor and brought it up to himself.
"No, no," you said. "Let me do it."
You took a towel and dampened it in the bowl of lukewarm water on the nightstand—probably there for this exact purpose. You squeezed the excess water out and gently wiped your mixed, drying releases from Astarion's thighs, abdomen, and cock. He sighed softly, relaxing as you cleaned him off.
"No one's ever done this for you before, have they?" you asked. He shook his head. You kissed him softly. "Get used to it, darling, because I intend to do this for you every time."
He grinned, a pleasant blush on his cheeks. "I could get used to this." He took the towel away from you. "Here, let me do it for you."
You laid back and let him slid between your legs. He groaned softly. "Oh, my sweet girl, you look so delicious with my cum dripping out of you."
You blushed fiercely, groaning. "Stop talking like that, or I'm going to demand we go again."
He perked up. "I'm up for a second round—if you can handle it, that is," he added with a cheeky grin.
You considered it for a moment while he wiped your thighs and entrance clean. "Give me an hour and maybe we can."
Astarion smiled and placed a dainty kiss just above your clit. "That's my girl." He laid back down beside you and pulled you into his arms. "Get some rest now, darling, you need it after today."
You wrapped your arms around him and rested your cheek against his chest. "Thank you, Astarion. For everything."
He hummed and kissed the top of your head, stroking your hair. "You're welcome, my love."
~❊~
You were ready to leave the next morning, and you and Astarion met the others in front of the clerk's desk on the first floor of the inn. Astarion handed back the key while you limped over to the group.
Unsurprisingly, Astarion had left you with quite the limp, even more severe than the first time he'd eaten you out at camp. Karlach didn't even try to contain her laughter at the sight of you.
"So you did fuck her last night!" she said to Astarion as he joined you. You blushed heavily. "We had no idea, couldn't hear a thing!"
Astarion raised an eyebrow, then looked at you with a grin. "They couldn't hear us, even with all the noise you made? We're getting a room at an inn every chance we can get from now on!"
"Not so fast," Gale said quickly, "they might not have heard you, but Wyll and I did!"
You squeaked. "You did?"
Wyll nodded, somewhat amused and somewhat apologetic. "You made noises I didn't think were possible. Or meant pleasure."
You turned immediately to Astarion, who was grinning like a cat, and buried your face in his chest. "Hide me."
"It's alright, darling," he whispered to you. "Gale and Wyll were across the hall from us. Next time, we'll just get a room as far away from the others as possible and I'll make you scream into the wee hours of the morning."
You blushed very brightly and the others groaned.
"Don't break her," Shadowheart chided. "Is your wound—"
"It's fine!" both you and Astarion said before she could continue.
"She's all healed up, no more scarring," Astarion promised. "Believe me, I wouldn't have gone as hard as I did if I thought she would get hurt by it."
"Okay, that's enough!" Gale said quickly. "Let's leave, please, and keep going. We've got important business to attend to!"
As you left the inn, Astarion took your hand and kissed the top of your head. "Are you sure I didn't hurt you? That limp's quite noticeable, dear."
"I'm fine," you promised. "You were quite good last night."
"Good. I'd be inconsolable if I had hurt you," he said. He brush your hair behind you ear. "I mean that, you know."
You leaned into his side and kissed his cheek. "I know, darling. And thank you. Now, come on, help me walk. It will be your fault if I fall."
He snorted. "Because I have you a good orgasm? No, wait, how many did it end up being last night? Two the first time...then another three?"
You rolled your eyes. "Oh, stop bragging! Come on, Gale's right: we've got work to do."
Astarion kissed you one last time, then pulled you against his side and followed the others out of the village.
☞ ❊ ☜
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Baldur's Gate 3 // Astarion Ancunin
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DC x DP short
I'm picturing Danny moving to Gotham once he's an adult. He came out to his parents, and it went fine. More than fine. They listened to how he was struggling at school because he kept having to chase down the ghosts they let out by leaving the portal open. Jack was super proud of his son for being a ghost hunter even as a ghost, but Maddie understood his concern and set up some new protocols for the portal.
It now automatically closes after two minutes unless a specific command is put in by Danny to keep it open while he is in the Zone, and the shielding around it actually works to stop ghosts coming trig without hurting them now.
The shine of the mortal world has worn off for most of his regulars now, and those that come through have figured out compromises so they can still fulfil their obsessions without hurting others. The meta-protection act officially disbands the GIW, and Red Huntress is given a very thorough speaking to about personal bias and vendettas. She's not allowed back in the field until she comes to the realisation that ghosts are people too, and that she been the bad guy by hunting them the way she did. Phantom is officially recognised as a Hero, but he turns down working for any teams or joining the Big Leagues. He agrees to act as a back up though, in case of any world ending event.
By the time senior year rolls around, Danny has gotten his grades up enough that he can go to a pretty decent university if he wants to. He chooses Gotham University for his engineering degree because they're a feeder school for Wayne Enterprises, who in turn are a feeder company for working for the Justice League as a civilian engineer. Tucker also chooses GU for their tech program, while Sam elects not to go to university straight away.
Tucker and Danny move into an apartment right on the borders of Crime Alley and The Narrows. Tucker manages an impressive 4 months as a local hacker before Oracle notices him, but Danny only manages 3 weeks before he's spotted by a Bat.
He's lying down a foot above his building's roof, looking at the stars. It's a very rare cloudless night, and the power is out in his area. Poison Ivy had launched an attack earlier in the day that had taken cut the power lines, with her mutant plants feeding on the smog and pollution to get stronger.
Duke was up late, finishing the day shift by a quick loop of The Narrows, when he noticed a slightly glowing teenager(?) floating on one of the roofs. He takes note that the man isn't causing any harm and is just peacefully stargazing, before calling it in to Jason. He was technically supposed to be off the clock an hour ago, and besides, the building was on the Crime Alley side of this street. It's Jason's problem now.
Jason, on the other hand, is exhausted and just wants to have a quiet patrol before collapsing in bed. He hadn't been hit by Ivy's plants, but had taken a couple of tumbles while dodging them. He heads over to the address Duke gave him, to find the guy still floating there staring at the sky. He gets it, he does, he would float above the grime that coats Gotham rooftops if he could, but it's dangerous for a meta to be so unawares of his surroundings like this while obviously displaying his powers.
Danny, meanwhile, had clocked both of the vigilantes coming near him, but was really hoping that they would leave him alone. It had been a very long day for him. He'd finally managed to get to campus for his class, only to find that the place was covered in overgrown plants. He'd had to freeze a few to get into the building, and had then spent most of the afternoon in the library due to his class being cancelled. Unfortunately for him, his nearly finished assignment that he'd spent the day working on was eaten by one of the giant flowers on his way home. He'd been 'saved' by the stabby Robin, which had caused him to then also lose his laptop as they crashed to the rooftop a few streets over.
Thankfully, he had an amazing best friend in Tucker, who was doing his best to recover as much data as possible. On the downside, though, Tucker was mad at him for now having saved a backup of his files since they left Amity. He'd fled to the roof to escape his wrath, plans of bribes in the form of food running through his mind, when he'd caught sight of the Stars. Holy shit. It was so clear tonight!
He didn't even realise he'd begun to glow and float, too caught up in naming all of the stars and constellations he could see. His Obsession was feeling very satisfied tonight. Usually he had to invisibly fly above the cloud cover to see such a sight. Sure, the light pollution was still bad, but his mind was able to fill in the blanks across the sky.
The moment Jason landed on his roof, Danny heaved a great sigh. Damnit. The fun police were here. He wrenched his eyes from the sky, only to notice that - oh, shit - he was floating again. He fell to the roof with a light thump.
"Heeeyyy stranger, come here often?" Danny asked, as he rolled over to his side, propping his head up on his hand.
#now it's your turn#how does Jason respond to this?#danny just casually in a 'paint me like one of your french girls' pose without even realising#jason coming to the realisation that oh shit. he's hot.#danny and tucker move to gotham for university#in my mind Sam becomes a chef#so that she can promote healthy tasty eating that's meat free#dcxdp#dpxdc#dc x dp#dp x dc#dp x dc fanfic#dc x dp fanfic#someone please find this and add to it
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