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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)
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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#studyblr#notes#math#maths#mathblr#math notes#maths notes#calculus#calculus notes#calculus ex#calculus example#calc#calc ex#calc example#calc notes#calc 1#calc i#calculus i#calculus 1#calculus 1 notes#calculus i notes#power rule#power rule in calculus#calculus power rule#derivatives#finding derivatives#derivation#derivatives in calculus#calculus derivatives#square roots
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kohane doing math
#hatsune miku colorful stage#project sekai#proseka#pjsk#prsk#pjsk fanart#pjsk art#prsk fanart#prsk art#prsk fa#kohane azusawa#azusawa kohane#vbs kohane#pjsk kohane#project sekai kohane#pjsekai kohane#pjsekai#vivid bad squad#vbs#vbs fanart#math#mathematics#calculus#power rule#indefinite integrals#antiderivatives#intergration#calculus is so fucking easy#also coming from a freshman by the way#also her little twintails are supposed to be integrals
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fuck the definition of differentiation all my besties hate the definition of differentiation
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THINGS I AM UNREASONABLY ANNOYED ABOUT BY GAME SYSTEM
D&D: Please put a disclaimer that you are not a universal system. Every time I see someone try to do a political mystery game in D&D, I take 3d10 psychic damage and have to make a death saving throw.
Pathfinder: Look. If i wanted to play a game about fighting Cthulhu there is an extremely famous game specifically designed around doing that. Literally no-one is ever going to say "Wow, I want to play a Cthulhu themed game! Time to stat up a musical halfling from a magical fantasy land!".
Chronicles Of Darkness: Just admit no-one uses any of your rules. You have Social Door Rules and Integrity Conditions and Corruption Levels and I bet at most 50% of COD players could tell me which of those I made up. Just admit people aren't dressing up as Alucard The Bringer Of Shadows because they want to sit down and do calculus.
World Of Darkness: You know that old guy who's still doing his job even though he is way too old to do it any more, but he's now an institution so you can't get rid of him? Like that. The 90s called and they want literally everything about this back.
Call Of Cthulhu: I appreciate the commitment to authenticity, but maybe stop hiring actual disgraced mental asylum directors from the 1920s to design your sanity system?
GURPS: Look. Look. Listen. We both know that you just want to write history textbooks. These are history textbooks with a few stat blocks begrudgingly put in. If you just give me a book on early Chinese history I will read it and go "ah, very interesting!". You don't need to put in a list of character choices. We're all nerds. We'll read them. Live your best life.
Powered By The Apocalypse: I actually can't think of anything wrong with PBTA. That's not a bit, this is literally the perfect system. Take notes everyone else.
Mutants and Masterminds/Heroes System: Your systems have probably the most customizable character creation in the world and you both just make reskins of the Justice League over and over again. Maybe we only need one "thinly veiled copyrighted characters" setting? You can fight over it once you decipher your combat mechanics.
FATE: Ok I won't lie, I have no idea how the fuck FATE works. I have read the rules repeatedly and played three games and I still have no idea what invoking an aspect means. I don't know why. I grasped the rules of fucking Nobilis but this one just psychologically eludes me. This is more a problem with me I guess, but I'm still annoyed.
Warhammer 40k: Have you considered spending less on avocado toast? Then you might be able to afford to charge less for things?
Exalted: Apart from the lore, the setting, the mechanics, the metaplot, the character creation and the dodgy narrative implications, I can't think of anything to improve here.
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Courtship (DT x OC)
based on this request <-
i put this off for so long bcs i thought it was kinda ass so did some revisions, hope y’all enjoy and give feedback if you like 🫶🏾🫶🏾🫶🏾
You've always admired Diana from afar. When you finally joined the team you couldn’t believe the amount of attention you were getting from her.
Practice sessions are a mix of intense drills and playful banter. Diana is always in the thick of it, her laughter echoing across the court. Sometimes, her eyes linger on you a fraction longer than necessary, and her compliments are peppered with a teasing edge that makes your heart race.
"Nice block there, newbie," Diana smirks as you deflect her shot, her gaze lingering on you with an intensity that sends a shiver down your spine.
"Thanks, Di," you reply, trying to sound nonchalant despite the heat rising to your cheeks.
"You're getting better every day," she continues, stepping closer. "I might have to watch my back soon."
You laugh nervously, unsure if her words are just friendly encouragement or something more. "I'll keep practicing."
Diana's grin widens, and she playfully nudges your shoulder. "I'm counting on it."
Her touch lingers for a moment longer than usual, leaving you wondering if there's a deeper meaning behind her actions.
Off the court, Diana doesn't miss a chance to be near you. She had managed to charm her way into hanging out with you at the library to “study”.
If studying meant laying her chin on her hands and staring at you the whole time then yes, that's what you were doing.
“You know,” Diana begins, her voice breaking the silence of the library, “you’re a lot more interesting than this calculus book.”
You look up from your notes, a smile tugging at your lips. “I’m glad I can compete with derivatives.”
She chuckles, propping her head up on her hand as she continues to watch you. “You’re seriously going to have to tutor me. I’m hopeless.”
“I doubt that,” you say, glancing back at your textbook. “You’re good at everything.”
“Not everything,” she replies, her tone shifting to something softer, almost vulnerable. “But I’m working on it.”
You meet her gaze, the intensity in her eyes making your heart skip a beat. “I’ll help you with calculus,” you offer, trying to lighten the mood. “But you have to promise to focus.”
“I’d focus better if we studied at yours” she drawls, smirking slyly.
Your cheeks warm, and you try to hide your smile. “We’re fine here, Di.”
She pouts playfully, but you can see the amusement in her eyes. “Fine”
“Now, let’s start with this problem.”
You point to an equation, and Diana reluctantly shifts her attention to the page. “So, the first step is to take the derivative of this function.”
“Right,” she says, leaning closer to you, her shoulder brushing against yours. “And how do we do that again?”
You swallow hard, trying to focus on the math instead of the proximity of her body. “We use the power rule. For example, if you have x^n, the derivative is n*x^(n-1).”
Diana nods, but her gaze remains fixed on you. “Got it. You’re a really good teacher, you know.”
“Thanks,” you reply, feeling your cheeks flush again. “Okay, now you try this one.”
She leans even closer, her breath warm against your ear. “Can you help me with it?”
You take a deep breath, fighting the distraction. “Sure. Let’s go through it together.”
As you guide her through the problem, Diana continues to flirt distractingly, her comments and touches making it hard for you to concentrate.
“Damn, your handwriting is neat,” she murmurs, her fingers brushing against yours as she takes the pencil from you.
“Um, thanks,” you stammer, feeling the heat rise to your face.
“And you smell really good,” she adds, leaning in to catch a whiff of your scent.
You laugh nervously, trying to regain your focus. “Diana, we’re supposed to be studying.”
“We are,” she says innocently, though the twinkle in her eye betrays her true intentions. “I’m just appreciating my study partner.”
You shake your head, unable to suppress your smile. “Alright, let’s move on to the next problem.”
Diana’s flirtations continue throughout the session, her playful comments and lingering touches making it clear that she’s more interested in you than in calculus. Despite your best efforts to stay focused, you find yourself growing more and more flustered by her attention.
Finally, after what feels like an eternity, you close the textbook with a sigh. “I think that’s enough for today.”
Diana grins, looking entirely too pleased with herself. “You sure? I was just starting to get the hang of it.”
“Yeah I’m sure” you chuckle as you get out of your seat
— — —
At practice the next day, Diana approaches you like always, her eyes sparkling with mischief. As the session wraps up, she lingers by your side, waiting until everyone else is out of earshot.
"Hey," she says, her tone flirtatious, "I was thinking... how about we hang out after practice tomorrow?"
You raise an eyebrow, intrigued. "What did you have in mind?"
Diana's grin widens, and she leans in slightly, her voice dropping to a conspiratorial whisper. "A date. There’s this skatepark I go to when I’m
bored. Just you, me, and the open road."
"Last line was a little corny but my interest is peaked. You gonna teach me how or something?”
"Yeah," she says, her eyes locking onto yours with a playful intensity. "I'll teach you some tricks, and you can… keep shutting me down like you have been all week. It’ll be fun." she teases.
You can't help but smile at her enthusiasm. "Alright, it's a date."
“Sick. Don’t be late, newbie." She winks, leaving you with a fluttering heart as she walks away.
— — —
The next afternoon, Diana picks you up from your dorm as you walk to the park together, her skateboard in tow.
"Ready for your first lesson?" she asks, setting her board down.
"Maybe, if you promise I won’t die” you reply sarcastically.
She chuckles, shaking her head “I promise”
Diana starts with the basics, showing you how to balance on the board. She stands close behind you, her hands on your hips to steady you, and you can't help but notice the warmth of her touch.
"Keep your knees slightly bent," she instructs, her voice low and soothing in your ear. "It'll help with balance."
You nod, trying to follow her advice, but your focus keeps drifting to the way her hands guide you. She senses your distraction and chuckles softly.
"Focus," she teases. "Or we’ll never get you skating."
With her encouragement, you begin to get the hang of it. Diana's hands remain on you, steadying you as you wobble on the board. She moves closer, her chest brushing against your back, and you feel a shiver run through you.
"You're doing great," she murmurs, her breath warm against your neck. "Just keep your eyes on the path ahead."
As you glide down a gentle slope, Diana stays close, her hands guiding and supporting you. Every touch feels deliberate, and you can’t help but wonder if she’s enjoying this as much as you are.
"See? You're a natural," she says, her voice filled with pride.
You laugh, exhilarated by the experience and her closeness. "Only because I have a great teacher."
Diana's eyes meet yours, her gaze intense and filled with something more than just friendship. "Maybe we should make this a regular thing," she suggests, her tone playful but serious.
"I'd like that,"
———
#women’s basketball#ncaa#ncaa women’s basketball#wnba#wlw#uconn wbb#diana taurasi#diana taurasi blurb
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Gideon The Ninth by Tamsyn Muir-
“The Ninth Necromancer needs a swordswoman.
Gideon has a sword, some dirty magazines, and no more time for undead bullshit.
Brought up by unfriendly, ossifying nuns, ancient retainers, and countless skeletons, Gideon is ready to abandon a life of servitude and an afterlife as a reanimated corpse. She packs up her sword, her shoes, and her dirty magazines, and prepares to launch her daring escape. But her childhood nemesis won't set her free without a service.
Harrowhark Nonagesimus, Reverend Daughter of the Ninth House and bone witch extraordinaire, has been summoned into action. The Emperor has invited the heirs to each of his loyal Houses to a deadly trial of wits and skill. If Harrowhark succeeds she will become an immortal, all-powerful servant of the Resurrection, but no necromancer can ascend without their cavalier. Without Gideon's sword, Harrow will fail, and the Ninth House will die.”
The Traitor Baru Cormorant by Seth Dickinson-
“Tomorrow, on the beach, Baru Cormorant will look up from the sand of her home and see red sails on the horizon.
The Empire of Masks is coming, armed with coin and ink, doctrine and compass, soap and lies. They'll conquer Baru’s island, rewrite her culture, criminalize her customs, and dispose of one of her fathers. But Baru is patient. She'll swallow her hate, prove her talent, and join the Masquerade. She will learn the secrets of empire. She’ll be exactly what they need. And she'll claw her way high enough up the rungs of power to set her people free.
In a final test of her loyalty, the Masquerade will send Baru to bring order to distant Aurdwynn, a snakepit of rebels, informants, and seditious dukes. Aurdwynn kills everyone who tries to rule it. To survive, Baru will need to untangle this land’s intricate web of treachery - and conceal her attraction to the dangerously fascinating Duchess Tain Hu.
But Baru is a savant in games of power, as ruthless in her tactics as she is fixated on her goals. In the calculus of her schemes, all ledgers must be balanced, and the price of liberation paid in full.”
#sapphic books#sapphic book tournament#lesbian#lesbian books#lgbt#sapphic#sapphic fiction#lgbt books#lesbian romance#lgbt characters#nona the locked tomb#the locked tomb#gideon the ninth#gideon the 9th#nona the 9th#nona the ninth#harrow the 9th#harrow the ninth#tamsyn muir#the monster baru cormorant#the traitor baru cormorant#the tyrant baru cormorant#the masquerade#the masquerade series#lgbtqia#lgbt fiction#sapphic characters#sapphic stories#lesbian fantasy novels#fantasy books
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Queer Fantasy Books Bracket: Round 2
Book summaries below:
The Masquerade Series (The Traitor Baru Cormorant, The Monster Baru Cormorant, The Tyrant Baru Cormorant) by Seth Dickinson
Tomorrow, on the beach, Baru Cormorant will look up from the sand of her home and see red sails on the horizon.
The Empire of Masks is coming, armed with coin and ink, doctrine and compass, soap and lies. They'll conquer Baru’s island, rewrite her culture, criminalize her customs, and dispose of one of her fathers. But Baru is patient. She'll swallow her hate, prove her talent, and join the Masquerade. She will learn the secrets of empire. She’ll be exactly what they need. And she'll claw her way high enough up the rungs of power to set her people free.
In a final test of her loyalty, the Masquerade will send Baru to bring order to distant Aurdwynn, a snakepit of rebels, informants, and seditious dukes. Aurdwynn kills everyone who tries to rule it. To survive, Baru will need to untangle this land’s intricate web of treachery - and conceal her attraction to the dangerously fascinating Duchess Tain Hu.
But Baru is a savant in games of power, as ruthless in her tactics as she is fixated on her goals. In the calculus of her schemes, all ledgers must be balanced, and the price of liberation paid in full.
Fantasy, epic fantasy, secondary world, politics, series
When the Angels Left the Old Country by Sacha Lamb
A queer immigrant fairytale about individual purpose, the fluid nature of identity, and the power of love to change and endure.
Uriel the angel and Little Ash (short for Ashmedai) are the only two supernatural creatures in their shtetl (which is so tiny, it doesn't have a name other than Shtetl). The angel and the demon have been studying together for centuries, but pogroms and the search for a new life have drawn all the young people from their village to America. When one of those young emigrants goes missing, Uriel and Little Ash set off to find her.
Along the way the angel and demon encounter humans in need of their help, including Rose Cohen, whose best friend (and the love of her life) has abandoned her to marry a man, and Malke Shulman, whose father died mysteriously on his way to America. But there are obstacles ahead of them as difficult as what they’ve left behind. Medical exams (and demons) at Ellis Island. Corrupt officials, cruel mob bosses, murderers, poverty. The streets are far from paved with gold.
Fantasy, historical fiction, young adult, folklore
#polls#queer fantasy#the masquerade#the masquerade series#seth dickinson#the traitor baru cormorant#the monster baru cormorant#the tyrant baru cormorant#ttbc#baru cormorant#baru cormorant series#when the angels left the old country#sacha lamb#little ash#uriel#uriel federman#books#fantasy#booklr#lgbtqia#tumblr polls#bookblr#book#fantasy books#lgbt books#queer books#poll#book polls#queer lit#queer literature
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Love Playlist #1: HOME (Han)
«GENERAL M.LIST» · «NAVIGATION» · «TALK TO ME»
"For a really smart person, Jisung can be so dumb sometimes."
Pairing: Han x Fem!reader
Genre: college au, friends to lovers, roommates to lovers, fluff, mutual pining
Warnings: mild swearing
Word Count: 7k
P.S. ♡ If you like my work, please consider giving me feedback in the form of reblogs, comments, and asks! ♡
You have three strict rules that you must follow. One, no going out after eleven. Two, never leave the house without your cell phone. And three, never, ever, fall in love with Han Jisung.
Unfortunately, you’ve broken that third rule already. In fact, you’re still breaking it, charring it to a crisp, and throwing it out like the trash you both begrudgingly take turns with. But how can you not? Because when it comes to your doe-eyed best friend who is serenely sitting in front of you, the whole rulebook is torn up.
Jisung quietly flips through his growing stack of manga, blissfully unaware of the way your heart accelerates whenever he reads a particularly entertaining segment and his eyes light up in amusement.You should remind him to stay on track, but you can’t bear to stop him because of how cute he looks, his legs unconsciously swinging under the table and his fifth banana lollipop of the day shoved into his mouth.
You’re both sitting together in the library at your special table beside the big window, the place that is always secluded no matter what, as if some higher power knows to keep it aside for you and Jisung for whenever you desire. Both of you are supposed to be studying for your finals, the objectively worst part of the entire year. You’re both seniors, so the slew of exams coming up should be a piece of cake for you, except both of you have grad school next year— you’ll be starting on your PhD, while Jisung, a computer engineering major, will be working towards a master’s degree— so you still have to worry about all of your final grades.
“I hate this.” Jisung looks up from the book in his hands, closing it shut. “I wish I didn’t have to do this.”
“It’s almost over. Then we’ll finally graduate and get to enjoy our summer,” you reply. “And then our lives begin.”
And the elation building in your chest is real, because although you have a tough couple of days ahead of you, the end of this year will be a testament to everything you have accomplished. You have your summer mapped out already; you’re going to be completing groundbreaking cancer research at an esteemed biologist’s lab, days filled with productivity along with exciting nights exploring adulthood and freedom with your friends. Even though you’ll still have school, you’ll only have to be doing what you’re passionate about, leaving behind the mandatory literature and calculus courses that brought you so many tears over the duration of college.
“Not for me.” Jisung sighs, leaning back in his chair and staring aimlessly at the ceiling. “It’ll never end.”
Lately, Jisung has become increasingly stressed about graduation. He doesn’t come from a wealthy background, with his mother being a grocery store cashier and his father out of the picture. You’re aware he’s under immense pressure to do well in school and then get a good job that will take care of both him and his mother, when she’s unable to provide for herself. Worst of all, Jisung had to ditch his dream of becoming a musician and instead focus on something more practical, which ended up being a profession in computers. Of course, like anything else he puts his effort into, Jisung excels in computer engineering, and he’s come to terms with giving up his passion, but you know it doesn’t hurt any less.
“Do you want to talk about it?” You ask softly, reaching for his hand. He accepts it, but he turns his head to gaze at the street beyond the window.
“It’s okay.”
You don’t press any further, because you know that it will just break him down, and neither of you can afford that right now at such a crucial time. Instead, you resolve to brighten his mood, like he does with you anytime you’re down. “Let’s just hope we don’t get food poisoning tomorrow.”
Your attempt works, because Jisung meets your eyes, a smile permeating his solemn expression and before widening into a full grin, at the memory of the time you both first met. Remembrance comes like the summer breeze you look so forward to, washing over you both like a tidal wave. And just like that, it’s freshman year and you’re standing at the bus stop near your old dormitory building.
You anxiously devoured the notebook pages in your hands, alternating between cramming the tiny text and scanning the road for the bus that was supposed to be here ten minutes ago. Your stomach ached from the food poisoning you contracted earlier that morning, an unwelcome byproduct of the dubious cauliflower and tuna tacos served at the dining hall the night before.
This was horrible timing too, especially because you had your first test of the academic year that day. When you should have been bent over your statistics notes, you were cooped up in the bathroom for the previous few hours, clutching the toilet bowl as you watched the clock above you tick menacingly.
You bounced on your toes anxiously, before a strange, squeaking sound met your ears. You whirled around to see a boy approaching you while struggling to pull a large, bulging suitcase along with him. He finally succeeded, collapsing onto the bus stop bench while coughing and wheezing up a storm that rivaled the ominous clouds in the sky. You reached into the side pocket of your backpack, pulling out your unopened plastic water bottle and handing it over to him.
He looked at your offering hand in surprise, before gratefully accepting. He tipped his head back and closed his eyes while he gulped down the cool water. You watched him finish the entire bottle with a dizzying speed and then recycle it in the bin next to the bus stop. The boy was lanky, sporting an oversized Pokémon t-shirt and battered sneakers, and overdue for a haircut, the locks flopping over his sweaty forehead.
“Thank you so much.” He said.
“Of course. What’s in the suitcase?”
The boy fondly ran a hand over the worn-out seams of the object of your curiosity. “I promised my roommate that I would give him all of my old books for his class project. I have no idea why he wants them, but then again, art students are weird.”
He looked up at you not even a second later, alarm in his eyes. “Unless you’re an art student! In that case, I didn’t mean what I said.”
You giggled, shaking your head. “No, I’m a biology major. And yes, I agree.”
He beamed. “I’m Han Jisung. First year, computer engineering. Anime and cheesecake lover. Spicy food hater.”
“Y/N. I’m a freshman, too, and I also love anime and cheesecake. Chocolate cheesecake, to be specific. And I can’t stand spicy food.”
“Chocolate supremacy!” Jisung gasped, clamping a palm over his mouth. “This is meant to be.”
You let out a hearty laugh at his theatrics. “Exactly.”
At that moment, the bus finally arrived, rolling to a stop next to you both. You helped Jisung push his suitcase full of storybooks up the steps of the bus and into the aisle. You sat on one of the seats in the back, and Jisung followed suit, plopping down right next to you. As he did, you noticed him wince, clutching his stomach. Concern bloomed in you for this precious stranger that you just met.
“Are you okay?”
He clutches his stomach once more, smiling embarrassedly. “I got food poisoning. I should have known better than to trust the dining hall food.”
You pause, as the ironic delight of the situation sets in, allowing the pain to fade away and leaving you to wonder about the odds of meeting Jisung. “No way! Me too!”
Jisung’s eyes widen in surprise. “That’s destiny. Mutual food poisoning. Now we definitely have to be friends.”
Later, after you had exchanged numbers and plenty of laughs, parting ways at your respective bus stops, you would meet again at the university hospital. Both of you had contracted a salmonella infection.
Unbeknownst to you and Jisung, that delayed bus and salmonella would determine the trajectory of the rest of your lives. Over time, you both emerged from the shackles of a hesitant acquaintance to the kind of bond that never breaks, even with time, distance, or the grievances of being young. You witnessed each other grow up, fall in love and out of love, and get drunk on piña coladas at the bar next to the college gym you both pretended to go to regularly.
Somewhere along the way, after Loser Boyfriend Number Three, as Jisung tried to cheer you up with his horrible jokes and the burned brownies that he nuked in the residence hall kitchen microwave, you realized that you were wasting your time on people who weren’t worth it. Because the only person who was worth it was the one who had been by your side all the time. Jisung.
Betrayed by your treacherous heart, you began to see Jisung— your person, your study buddy, your fake fiancé when you both were trying to score free dessert with a restaurant proposal— as more than just a friend. In fear of your feelings potentially ruining your friendship, something more dear to you than any form of romance, as you so believed they would, you swore to never speak to Jisung of it. But you couldn’t lie to yourself anymore about the worst. You fell in love with your best friend.
“What did the farmer say after he lost his tractor?”
“I have no idea, Jisung.”
“‘Hey, where’s my tractor?’ Get it?” Jisung bursts out laughing, slapping his thigh. He doubles over, his whole body shaking with laughter at the unimpressed look on your face, which makes everything funnier for him.
“That doesn’t even make sense!” You exclaim, trying to push him. Jisung just keeps giggling, dodging you masterfully.
You both have given up on your library study session, resolving to take a break at your favorite coffee shop and meet up with the rest of your friends in your circle. The setting sun has streaked the blue sky with its golden rays and puffy pink clouds, enveloping the entire campus in a hazy glow. It’s a pleasant May evening, with the scent of your college’s famed peonies along with the excitement of Spring lingering in the air. The street lights that line the sidewalk are already turned on, but not many people are outside enjoying the weather, except for a few students playing a game of Frisbee on the athletic field. Everyone else is locked away in their rooms or the library, grinding for their upcoming exams.
“Well, I have a better one anyway.” Jisung states, clearing his throat dramatically.
You roll your eyes as you near your destination, an unassuming red-brick building tucked away in a larger complex of stores. Purple morningstar blossoms border the door of the small shop in clumps of dainty vines, no doubt the namesake of Morningstar Coffee House. Fairy lights are strung around the glass block windows, which offer a glimpse of the inviting warmth inside.
“Let’s hear it.”
Jisung jogs ahead of you and opens the door for you, gallantly gesturing for you to go first. “What did Y/N say to Jisung when they went to the coffee shop together?”
The comforting smell of pastries and dark roast coffee engulfs you as you step into Morningstar. The strung lanterns and groovy jazz music playing in the background welcome you like a hug from a long-distance friend. You can’t believe it’s been so long since you’ve gone anywhere other than the library, the lecture halls, or the tiny apartment you and Jisung share.
“I don’t know.” You humor Jisung, still playing along and waiting for his ridiculous punchline.
He smirks at you. “I love you a latte!”
You feign disgust, but secretly, you are elated because of how genuinely touching his words are to you. Jisung hugs you like a baby panda, trying to get you to applaud him for his clever joke, as Jisung is naturally a very physically affectionate person, always wanting to snuggle up to the people around him. But your heart can’t help but jump a little every time you feel his arms snug around you.
“Well, I love you a latte more, Hannie,” you respond nonchalantly, but you mean it. You do love Jisung for everything that he is, even the cringeworthy SoundCloud rapper phase that dominated his sophomore year.
“You guys are weird,” your friend Seungmin says from behind the counter, where he’s busy working as the barista, while his co-worker, Soobin, a timid Psychology student, clumsily handles orders at the cash register. Seungmin’s parents own Morningstar, and he plans to take over it next year.
Jisung sticks his tongue out at Seungmin in defiance, before linking arms with you and dragging you to the back, where the rest of your friends are seated. There is Chan, or more famously known as Chris among his many admirers across his campus, clad in his signature black jacket. Besides him, the turquoise-haired baby of your group, Jeongin, and then Hyunjin, who as usual, is lost in his sketchbook.
“Hey guys. What are you up to?” You slide in next to Hyunjin, trying to peek at what he’s drawing. You catch a glimpse of a very pretty girl you vaguely recognize from around campus, before he protectively snaps his journal closed, narrowing his eyes at you.
“Eyes on your coffee, Y/N,” Hyunjin says, handing you the mug that they ordered for you ahead of time. Magically, it’s still hot.
You accept the coffee and drink it, letting the rich liquid warm your insides as you swallow it gratefully. “Alright, alright.”
Jisung tries to steal a bite of Jeongin’s apple danish, earning him a swat on his wandering palms. Chan looks over at you with a grin. “We’re just listening to Jeongin rant about his crush.”
Jeongin groans before continuing. “And I keep asking her out, but every time, she rejects me, bro! What am I supposed to do? Give up?"
“Yes,” Hyunjin says in his signature straightforward manner, prompting everyone but Jeongin to snicker.
“Whatever. I'll figure out a way.” Jeongin sits back in his seat, resorting to aggressively typing on his keyboard to deal with his frustration.
You look around your little corner in the shop, which is filled with textbooks and miscellaneous notebook sheets. “Where are the others?”
“Minho is studying with his girlfriend, and Changbin and Felix are apparently also working, but they’re probably gaming instead.”
Hyunjin bites down on the edge of his straw, glancing between you and Jisung thoughtfully. “Speaking of girlfriend, when are you both going to get together?”
You freeze up in your seat, tensing like you always do whenever someone jokes about your relationship with Jisung, but he’s unfazed, shooting Hyunjin a mischievous smile. “When you tell us about that girl you’re obsessed with.”
Hyunjin immediately forgets about teasing you, glaring at Jisung contempfully. “Shut up, Han. You don’t know anything.”
“Guys, let’s calm down,” you say while patting Hyunjin’s back, happy for the distraction but still cautious about him and Jisung. While those two love each other very much now, they used to fight like crazy when they roomed together in freshman year, and no one needs a repeat of bad history right now.
Jisung catches your eye, and although he doesn’t smile at you, you can see the appreciation in his eyes. You nod slightly at him, before getting out your own computer. Words do not have to be exchanged between you two for you to understand each other.
You all settle into a comfortable silence as you finish your coffee and resume studying, only looking up occasionally to ask each other questions about the material or an assignment. Soon, the evening begins to fade away, and you start packing up your belongings before closing time.
“Hey, Y/N! Can you come over here for a second?” Seungmin calls out, capturing your attention.
You put down your backpack and walk over to the counter, where he’s washing his blender. “Yes?”
“So what’s going on with you and Jisung?” Before you can interrupt him and deny anything, Seungmin wipes his hands and gives you a meaningful look. “I know you have feelings for him.”
You feel your face heat up, and you avoid his piercing eyes. “How would you know?”
“Look, it doesn’t take a genius to figure it out. From the way you look at him, it’s a marvel how he hasn’t figured it out yet. For a really smart person, Jisung can be so dumb sometimes.”
You exhale, seeing no point in lying anymore. Besides, it feels good to get it off of your chest. “Well, why are you bringing this up anyway?”
Seungmin sets down his utensil caddy and rests his elbows on the edge of the sink. “Soobin likes you and asked me if you’re single. But, you know, I wasn’t sure if you are available. Emotionally, I mean.”
You glance over at Soobin, observing him counting all of the day’s revenue. The blonde cashier catches your eye, flashing you a shy smile before quickly looking away, turning a shade of tomato red. He’s handsome, good-hearted, and not to mention, very tall. Just your type. But he’s no Jisung.
“It’s been a while since I’ve dated anyone.” And this is true— over a year, to be precise. “I guess, I’m still hung up over Jisung.”
“Do you plan on making a move?”
“No way. I’m just going to wait for the feelings to dissipate. I would never risk our friendship like that,” you mumble.
“You could get to know Soobin, maybe he’ll help you move on,” Seungmin suggests, crossing his arms.
You consider your options before piping up. Jisung had gotten pretty serious with his last girlfriend by the end of your junior year, but he broke up with her a month later, telling you that she just wasn’t the one for him. He hasn’t dated anyone since, claiming that it’s not the right time. But for you, it is, and you realize that you can’t keep waiting for him.
“Maybe I will,” you say, toying with your jacket zipper.
Seungmin tips his head towards Soobin, but before you move, he leans in closer to you. “But personally, I think you should just tell Jisung. If he’s really your best friend, your friendship will stay the same no matter what.”
You nod. “Yeah, okay.”
You know Seungmin is right, but the truth is, it’s not just about losing your friendship with Jisung. Regardless of whether he reciprocates your feelings or not, you know that he would never walk away from you. It’s truly you who you are concerned about. You’re uncertain if you could bear to go back being your normal self around Jisung if you confess and get rejected. You don’t know if your heart could handle it.
You touch Seungmin’s hand in a quiet gratitude and approach Soobin, who immediately notices your presence and accidentally slams the cash register drawer closed, nearly shutting it on his finger. “H-hi Y/N.”
Watching Soobin get endearingly flustered, you can’t help but smile. “Hey Soobin. How are you?”
“I’m good, thank you.” Soobin bites down on his lip, wrapping his arms around himself. He looks so cute in his brown bib apron and converse shoes. “You look really pretty in that dress.”
Your cheeks warm, but you look him directly in his eyes. “That’s so kind of you to say. Actually, I was hoping you'd want to go out on a date sometime? Maybe after finals?”
Although you’re very reserved about your feelings for Jisung, in every other case, you can be quite forward with romance. Soobin’s eyes widen. “Wait, really?”
You laugh, getting out your phone. “Yes, really. What do you say?”
“Yes! I would love to. Could I please get your number?” Soobin stretches out his phone, which is covered in teddy bear stickers.
You think of Jisung’s phone, which has a clear case and a polaroid of you two at the beach inside. You shake the thought of him away. You type your number into Soobin’s phone, before wishing him good luck on his finals and then rejoining your friend group in the darkening outdoors, which has moved outside the shop while you were talking to Seungmin. As soon as he spies you walking out of the door, Hyunjin forgets his conversation with Jeongin and immediately launches into interrogating you.
“What were you talking to Soobin about?”
You shrug, trying to play it off, but can’t help the rosy blush that creeps up your neck. “Nothing, really.”
Now the others look interested as well, and Jeongin smirks knowingly at you. “You asked him out, didn’t you?”
Out of the corner of your eye, you think you see Jisung’s smile falter, but you chalk it up to your own imagination and affirm Jeongin’s prediction. “Yes, but it’s pretty casual. So not a big deal.”
Chan and Jeongin both high-five you like seventh grade boys, while Hyunjin just cackles at your sudden agitation. Jisung, however, looks annoyed, a very new color on him.
“I didn’t know you were interested in Soobin,” he says, shutting Hyunjin up. “Why didn’t you tell me? You always tell me when you like someone.”
You know the answer to his question. But you can’t tell Jisung that the only reason why you asked Soobin on a date out of the blue is because you are in love with him and trying to move on. “Seungmin just told me that he had a crush on me. So I went for it.”
“Yeah, everyone knows Soobin likes you. But you could have told me first before making a move.” Jisung’s tone is slightly harsh, suspicious. You recoil in surprise, because he has never spoken to you like this, unlike the boy you know and love.
“Why are you getting so mad?” You ask him, hurt.
“It’s just that we tell each other everything, and this is pretty big.” Jisung crosses his arms stubbornly. “Unless you didn’t want me to know.”
Your skin prickles with a strange feeling, because while you two have bickered over stupid things in the past, it wasn’t anything serious like the look on Jisung’s face now. “What’s your problem, Jisung? What did I do to you?”
Your voice is raised, and boys instantly sense the tension in the air, stepping in to mediate. Chan, the eldest in the group, places a hand on Jisung’s shoulder, mutely imploring him to stay calm. Hyunjin, however, gets defensive on your behalf.
“Why should she have to tell you? Calm down,” Hyunjin says, frowning at Jisung.
“It’s okay, Hyunjin. We should get going.” Without waiting for an answer from the others, you grasp Jisung’s hand and pull him with you, while he comes along without saying anything at all.
The walk back to your apartment, which is seven minutes long from campus, is filled with an uneasy silence, a dreadful change from the playfulness earlier in the day. The air is charged, full of everything you both want to say to each other, but nevertheless, you keep your mouth closed. More than anything, you’re confused.
It’s been a long time since either of you were with anyone romantically, so maybe it is surprising to Jisung that you randomly asked Soobin out. However, you don’t understand his anger, especially because Jisung has always supported you in your dating life, even setting you up sometimes with people he knew. But you don’t think the problem is the fact that it is Soobin either, because Soobin is one of the most beloved people on campus due to his sweet personality. You don’t know what’s wrong, and that’s what bothers you the most.
Neither of you speak even when you reach your neighborhood, a suburban oasis in a big city. When there’s good weather, you and Jisung love to come outside and either take long walks around the block or pack picnics to share on the perpetually green lawn in front of your apartment building. Today, you head straight up to your flat, an indifferent pair of strangers standing in the elevator.
After unlocking the door to your apartment, you finally decide to break the silence, turning to look at Jisung, who trails a few feet behind you. “I’ll be in my room, studying.”
You want him to say something, anything, but he just nods, keeping his eyes trained on the grey hardwood flooring. Sighing, you pad across the apartment and enter your room, shutting the door you always keep open.
You and Jisung had signed a lease on your place last year, partially because you couldn’t afford off-campus housing on your own, but also because you couldn’t imagine a better roommate than him. People made plenty of comments about how you both— two people of the opposite gender— renting an apartment together would be a recipe for disaster.
While Jisung had assured you that everything would be alright, the weeks leading up to move-in day were filled with apprehension for you. But unlike what he believed, it wasn’t because of what others said. The thought of you and Jisung living together made you worry if proximity could potentially make it easier for him to realize your feelings for him.
However, when the big day rolled in, you couldn’t remember any of your fears as you and Jisung sat in your new apartment, leaned against a pile of half-opened luggage. Exhausted from dealing with delayed furniture shipments and sorting through the endless boxes of belongings, both of you had given up. Resolving to lay on the barren floor and play Go-Fish, you both laughed for hours about the annoyed look on the grumpy mover’s face when Jisung kept asking him questions. Before Jisung subsequently fell asleep on your lap, he promised you that you both would make a lot of good memories here. And you did.
Last Christmas, you both spent it together, huddled on the couch while gossiping and drinking hot chocolate, because both of your flights got canceled due to snow. Then there was the time Jisung forced you to stay awake with him all night because he was scared after watching some bad slasher film, but you told him Disney bedtime stories that eventually made his fear go away.
You can’t help but feel a small pang thinking of whenever he brings you strawberry shortcake from the bakery you like, or all of the times he spam calls you when you’re out late and haven’t informed him. You’ve never fought with Jisung like this, not without him immediately coming after you and begging you to forgive him, even if he wasn’t in the wrong. Being distant with Jisung is a new feeling, and you don’t get how you could ever accomplish that with your best friend in the whole world.
Shaking off your incessant thoughts about Jisung, you turn on your computer, hunching over on your desk in the artificial glow of the screen. You still have a few chapters of reading to get through, and then you have to solve ten long practice problem sets for Chemistry. For now, you’ll have to put off the deliberations that pull at you.
“Y/N.”
You feel someone shaking you awake, gentle hands coaxing you out of an uneasy nap. You lift your head from where it rests on your arms, blearily looking up from where you are slumped over your desk. Your laptop has fallen asleep, the dim glow of your lamp lighting up the room instead. And the blaring, unwelcome red of your digital clock signals an unfortunate time well past twelve. Rubbing your eyes, you finally notice Jisung hovering beside you hesitantly.
“I thought you’d want me to wake you up,” Jisung says, his hands shoved into the pockets of his pajama pants. “I’m sorry.”
He’s wearing a black sweatshirt with the hood pulled up snugly over his head, a few soft pieces of hair messily sticking out from underneath. He looks so cute you want to hug him, but then you remember the events that transpired before you accidentally fell asleep.
“It’s okay. I need to finish working, thanks,” you say dully, both tired from studying and being stuck in this bad day with Jisung.
He shakes his head. “No, I mean, I’m sorry for earlier. At the coffee shop.”
You bite your lip, melting at the regret and sadness in his eyes. Your best friend misses you too. “Can we talk?”
Jisung stays quiet before speaking, and you swear he can probably hear your anticipating heartbeat filling the room. “Are you hungry? We didn’t have dinner.”
He doesn’t answer your question, but you still fold at the thought of how he didn’t eat without you. “Yeah, I am hungry.”
“I’ll make us something.” He turns and heads into the kitchen, and after a second thought, you hurry after him.
Jisung takes off his hood and brings out a metal pot out of one of the cupboards. You watch as he rummages hastily through the fridge, before he shuts it with empty hands. He turns to you with a sheepish look on his face. “So we don’t actually have any food.”
Realization passes between the both of you: in the past few weeks, you both were so immersed in your preparation for your exams that you had completely neglected buying groceries, opting instead for easy pre-cooked meals or food deliveries. Your stomach rumbles loudly, and you rub it, embarrassed, but at least it breaks the tension, as Jisung snorts, an amused look on his face.
“We could go to the store and get something,” he suggests, from where he stands behind the kitchen island.
He fidgets nervously, a reminder of how any other time, you would have jumped at the opportunity to ditch your books and buy cheap junk food with Jisung. But now? You don’t want to go out. You want to stay here, you want to talk to your best friend, you want things to go back to how they were before your fight with Jisung. And yet, you nod your head in agreement, grabbing your apartment keys and wallet from the counter before following Jisung out of the apartment.
The hallways of the building are tainted a vivid yellow from the incandescent lighting, a sharp contrast to the gloomy night outside. The moon is high up in the sky, shrouding the sleepy apartment complex in a silvery glow. There’s no one outside except for a homeless man dozing on one of the benches lining the walkways. But the distant city lights tell you that not everyone slumbers, that outside of your bubble, people have their own lives and stories. The only story that matters to you, however, is the one with the beautiful boy who walks beside you, his step heavy and eyes downcast.
In a matter of wordless minutes, you and Jisung have arrived at your go-to place for midnight runs, a sketchy little convenience store peeking out from behind a cluster of drab office buildings. The neon lighting of the store glows in the dark and reflects in the pools of water left by a mild rain that had graced the land while you were sleeping.
Jisung quickly walks ahead of you and opens the door for you, a blast of air conditioning granting you solace from the humidity. The familiar sight of the plentiful arrays of colorful aisles and the broken fan hopelessly creaking by the entrance pulls you in. You scour the shelves of mouthwatering foodstuffs, before settling in front of one of the sections.
“I don’t know if it’s a noodles or sandwich kind of night,” you wonder out loud, picking up a pack of ramen. You don’t notice Jisung standing behind you, as you assume he’s already zeroed in on the ice cream freezer like he always does.
“Definitely ramen.”
You jump, hugging the packet to your chest as if it would protect you from the perpetrator. Jisung innocently watches you, a small smile playing upon his lips. He holds two wrapped popsicles in his hands, one melon-flavored and one mango-flavored, and stretches the latter out to you. You accept it, returning his smile, and it feels like things are normal again. You know you should bring up what lies unspoken between you two, but you want to preserve this moment for now.
Jisung selects ramen for himself as well, and you both go to the front counter to check-out, failing to exchange any more words as you both just continue to enjoy the calm. After, you both quickly exit the shop and start jogging in synchronization, remembering that a pile of work still awaits you. When you board the bridge that connects the rest of the city to the way back to your apartment, Jisung doubles over, panting.
You decide to take a break, walking over to the edge and drinking in the view. The blurred lights of the magnificent skyscrapers illuminate the midnight sky like lightning, and the river in front of you is littered with cargo ships peacefully gliding along on their separate journeys. You lean against the railing, closing your eyes and letting the wind ruffle your hair. Jisung comes up behind you once more, but when he speaks this time, it’s less of a surprise and more of a comfort.
“Everything is changing,” he says, resting his hands on the railing as well. “I’m scared.”
You open your eyes, turning to face Jisung. His eyes are filled with tears, and your heart reaches out for him. You tightly grasp his hand, trying to convey everything you can’t say to him.
“Talk to me. Please.”
“I’m not ready for all of this. Graduation’s getting closer, and I know you’re excited but… I don’t know, I still feel kind of stuck.” Jisung’s gaze fixates on one of the boats below. “Every time I type out a line of code, I want to smash my keyboard into bits. Every goddamn time.”
His words are strong, but his voice is rough with emotion.
“Jisung, don’t do this if it’s not what you want.”
“We’re literally graduating in a month, Y/N.” Jisung lets out a disbelieving sound. “But that’s not even a concern, because my grad school actually offers a joint program on computers and audio design for engineering students who want to go into music production. But I couldn’t do that, because you barely get paid unless you make it big.”
You frown, setting down the plastic cover of your food. “Well, why not? If anyone could break out, it’s you.”
Jisung shrugs, shaking his head. “I can’t take that risk. Just plain old computer science is the way to go.”
You stay quiet for a second, keenly observing his despairing expression. “Your mom would want you to be happy, Hannie.”
“I could be happy, maybe, one day. But not right now.” Jisung runs a hand through his hair, not meeting your eyes. “You’re moving away next year for your PhD, and I’ll still be stuck here, in a place where you aren’t there.”
“I’m only two hours away. You can get away from campus and visit all the time. We’ll be like the Kardashians taking on a new city!” You crack a watery smile.
Jisung sniffles sadly, and your heart sinks, because you failed to make him happy. Again. But then he looks up at you, a glimmer of humor in his eyes. “Only if I get to be Kourtney.”
You laugh, shoving him in the arm. “Fine.”
And then you both say nothing again, just gazing out at the world beyond this bridge and instant.
“What happened today?” You break the silence— questioning, not accusing.
Jisung groans. “It’s… look, I know we’ve both dated before, but none of them were it. And maybe you never felt that way, but I know for a fact that none of the guys you dated were right for you.”
“Jisung—” you start, but he interrupts you.
“And we’re graduating soon. So I thought you’d realize it by now.” Jisung taps his foot like he always does when he’s nervous, and your pulse quickens at his halting words.
“Realize what?” You ask him softly, trying not to come to any conclusions but betrayed by the treacherous beat of your heart.
The tips of Jisung’s ears turn red. “I- I need you to not say anything. Because I need to say something. And if you don’t like what I say, then I’ll walk away and we can forget everything that transpired here. Okay?”
You maintain your serious expression, although you want to swoon at his adorably flustered state. “Okay.”
Jisung is about to finally reveal what has gotten him so worked up, but then he sighs in frustration, shaking his head. “No. I can’t do this with you looking at me. Can you please turn around? Please?”
Hiding a smile, you oblige him and face the other way. “Okay. I can’t see you now.”
You hear Jisung take a deep breath.
“I’m never going to get this right. Y/N, I like you. And I mean like-like you. Like, romantically. Everything about you, I like. Even your disgusting food combinations, I like. Your smile? Oh god. Don’t go on a date with Soobin. Go with me. I like you.”
Even though the past few minutes manifested Jisung’s declaration, you still whirl around, shocked. “Say what?”
Jisung rolls his eyes. “Seriously? I pour myself out to you and you need me to repeat it? You’re really something, Y/N.”
You smirk, stepping closer and looping your arms around Jisung’s neck. You take in how Jisung’s eyes have widened and how his lips are parted at such an intimate gesture from you, wondering if this is how it feels in the movies, when the heroine finally gets the boy she’s been loving from a distance for so long.
You look up at Jisung, and your heart has never felt so happy. “I guess this is my time to be vulnerable too. I don’t just like-like you, Jisung. I love you.”
It’s Jisung’s turn to be surprised. “Wait, really?”
“Yeah. For a very long time.”
He smiles bashfully, his elation at your own confession evident. “I love you too.”
Jisung tilts his head to his right, as you do the same, almost about to close the miniscule space between you both. And then he pulls away.
You watch Jisung, confused, as he covers his face with his palms, shyly giggling. “I’m sorry, it’s just that I dreamed of this for so long. Can you give me a second?”
Never able to get enough of his antics, you watch as he pulls a stick of chapstick out of his pocket and swipes it on. He dabs his lips carefully before turning back to you.
“Now where were we?”
Before you can even say anything, he’s closed that gap. His lips are soft and sweet, the taste of cherry and vanilla chapstick lingering. You close your eyes and melt into the kiss as Jisung brings up his hands to cradle your face. The sweet scent of him clouds your senses and washes away your inhibitions, and there’s nothing besides you both in this moment. He kisses you like there’s no tomorrow, no exams, no school or anyone else. He kisses you not like a friend, but a lover that he’s yearned for, which certainly wouldn’t be a lie.
You can’t believe that you’ve been pining after Jisung for the mere duration of your college years. It feels like you’ve waited your whole life for this. The murky puddles of water around you and the pungent stench of a nearby dumpster are nowhere near romantic, but with the way you’re kissing Jisung, you might as well be in heaven.
If you dare to predict the future, you’ll have the rest of your life to look forward to moments like this, miss him even when he’s laying in your arms, love him when you both slow dance in the refrigerator light at midnight. And because you’re two broke peas in a pod, you both will definitely conduct more fake proposals with each other when you go out to eat. Hopefully before the real deal. You’ll just have to see who pops the question first.
“Wow,” Jisung breathes against your lips. “My dreams have not done this moment any justice.”
You chuckle, leaning in for another kiss. “Mine too.”
But Jisung dodges your lips, making you scoff as he raises his eyebrows at you. “And what are you going to be doing about Soobin?”
“You should be nicer. Poor Soobin. I wouldn’t have to let him down now if you’d just told me all of this earlier,” you scold Jisung lightly, cupping his chin.
He pouts, swatting at your arms with the oversize sleeves of his hoodie. “Never mind. Let’s stop talking about him.”
You roll your eyes playfully and wrap your arms around his waist, pulling him closer. You’re sure that the lovesick look on Jisung’s face mirrors your own. He may not be perfect, but he’s perfect for you. Your best friend in the whole world. And whatever the future holds, that will never change.
“I love you, Hannie. Love you so much,” you whisper, pressing another soft kiss to his lips. You’ll never, ever get tired of kissing him.
Jisung smiles down at you lovingly, slipping off his hoodie to put it on you, noticing the way you shiver. But you’re not really that cold; it's the way he’s looking at you right now. Not that you’d tell him that. “Let’s go.”
“Where?” You ask, still in a dreamy daze. This day has turned out to be better than any other you’ve ever had. Everything was worth it.
“Home.”
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for the Treatise on the Peregrine Phoenix series i've been working on i've had two dedicated protagonists to share the bulk of POV duty. usually my process starts with the outline of the broad plot points that happen in any given chapter/scene, and often it happens that i haven't settled on which POV to use until i actually start writing each chapter. scenes often expand into multiple chapters before i hit all those plot points and move on to the next scene, which also is a bonus because it gives me the option to hop into the other character's head mid-scene if it's called for.
if the scene only has one of those two characters, then picking POV is easy, but they're usually doing things together. in that case, the number one consideration that drives whose POV i settle on is: who's got the juiciest feelings here? who's the biggest freak about what's happening? who's got the most interesting perspective/experiences informing how they're approaching this moment they're a part of, and would they actually voice any of that for the benefit of those sharing that moment with them? what's lost in that moment by not being in their head, and is it an interesting loss? can i write these characters so well that my readers have some idea of what they might be thinking even if we aren't seeing it directly in the narrative?
often it's obvious. if i've asked all these questions and i'm still torn (these can be hard questions! this is a brutal calculus! language, as the gal in the library in 1000xRESIST says, is an act of excruciating violence!) then i have a few rules of thumb. though, usually, i run over the thumb rules in the process of asking those other questions. if it's our first time seeing a particular locale in qud on-screen, then mokou is an obvious pick - she's new in town but she's got such depth of experience that often gives me an opportunity to dredge up some bit of touhou project esoterica. if agate has a question about magic, or spell cards, or any of the aforementioned esoterica that mokou might have been driven to actually talk about instead of just think about, then agate's perspective becomes juicier - it's a chance for this well-traveled skeptic to learn more about the strange world that mokou comes from, in the hopes of perhaps better understanding why she's like that.
of course, book 2 had several chapters from special guest Seeker E'Beth, the master of ceremonies at kitchen heptagon (original city do not steal). in those chapters, it wasn't just that the ceremony of the moment was so strong that i needed to be in her head. it's also that she's a powerful esper! while we're in her head, she can be in the heads of everyone around her. diegetic limited omniscience for those chapters' narrations. it's challenging but fun!
and in book 3... well, the party's expanding. there will be quite a few more special guests.
#treatise on the peregrine phoenix#this is prompted by some poll for fic writers about how they settle on pov#but all the options are so blorbo-poisoned. no love for the craft. smh.
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Tenno whose brain runs on the disco elysium system but it's divided by focus schools
Going off of the actual in-game text for the schools for the most part.
Madurai: Swift uncompromising onslaught, recklessly attack, speed and savagery.
Physical instrument
Hand eye coordination
Reaction speed
Transference instinct
Half light
Unairu: Withstand and outlast.
Pain threshold
Composure
Volition
Endurance
Inland empire
Zenurik: Dominate, overwhelm and crush.
Authority
Drama
Rhetoric
Orokin exposure tolerance
Suggestion
Naramon: Knowledge and tactics focused
Logic
Encyclopedia
Conceptualization
Visual calculus
Interfacing
Vazarin: Evasion, awareness, and recovery.
Perception
Savior Faire
Shivers The Void
Empathy
Electrochemistry
Orokin exposure tolerance is navigating incredibly strict and outright hazardous pseudo-social rules-for-thee-not-for-me situations and avoiding consequences. At low levels, you're doomed to draw the ire of the Golden Masters either in spite of or due to your best efforts, perhaps silence is the ideal choice. At high skill levels, you can appear to be a kiss ass without completely degrading yourself and even actually get some reward for your hard work. If these entitled pricks ever parted with their absurd wealth.
Transference instinct dictates the skill at which one's void powers and physicality flow and compliment. At low levels, Transference is difficult and one often forgets their own body or the warframe, stumbling between one or the other is disorienting and a liability. At high levels, two bodies unite under one mind, begin a motion as one, finish as the other. A perfectly choreographed dance of death.
The Void, the world that watches and dreams. Wake echoes and ghosts, absorb memory not your own, and on occasion ride along with the actions of others as you dream. At low levels, you are battered with the sheer maddening power and easily trapped within spiraling nightmares made material. At high levels, you swim at ease, navigating the depths of the luminous expanse of black stars and the psychological turmoil alike. Perhaps with mastery, one could understand those which dwell in the direction we can not point to.
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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)
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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If Tywin was to decide, a few years after Joanna's death, to remarry, who and what (in terms of marriage power) do you think he would go for?
The problem is, I can’t work in a scenario which by the author’s own admission would never happen. Tywin did not want to remarry, point blank, despite having plenty of opportunity (certainly in terms of time) to do so. Joanna was, I think, completely irreplaceable in Tywin’s mind as the ideal bride: the kinswoman whose main-line (male) Lannister pedigree identified her as elite among the levels of humanity (by Tywin’s calculus, anyway); the companion of his childhood at Casterly Rock, whom he had loved and had married at least in part for love; the trusted confidante who could not only make him smile and laugh but who had supposedly ruled Tywin personally as much as he had ruled as Hand politically; the mother of his golden twins, especially precious heir Jaime, the products of Tywin’s quest for politico-dynastic domination through Lannister perfection. Tywin, the man who never did anything by half measures - as small-scale as shaving his head when his hair began thinning or as large-scale as drowning every Reyne inside Castamere at the tail end of the Reyne-Tarbeck Rebellion - could not simply remarry after a proper period of mourning: he would remain a widower, publicly advertising his permanent status as only husband to the late Jonna.
If this all sounds mighty hypocritical given Tywin’s ruthless insistence on unhappy but diplomatically advantageous marriages for his children, as well as his violent and cruel outrage toward Tyrion and Tysha’s marriage purely for love … well, you’re right! Tywin was not, as much as he might have wanted to appear, a gilded android guided only by (what he saw as) cold logic and political acumen, but a deeply emotional man, driven by (among other things) love, anger, grief, hatred, pride, and jealousy. Tywin, but not his children, could sacrifice any potential political benefits to be had via aristocratic marriage/remarriage because he had felt Joanna’s death so strongly, because he wanted to honor her memory by not remarrying, because he needed to show how much he had loved her. (Which did not, of course, prevent Tywin from using sex workers before and after Joanna died - a reflection, I think, both of the hypocrisy in Tywin’s public perception versus his private life as well as Tywin’s attitude toward sex work specifically and people he considered subhuman more generally.)
Also, and it me so of course I have to say it, Tywin’s refusal to remarry after a beloved wife’s death is a nod to Philip IV in The Accursed Kings. In yet another parallel between Philip IV and Tywin, Druon’s Iron King was married only to Jeanne of Navarre (note the almost identical names of their respective wives), with Druon describing Jeanne as “the only love of [Philip’s] life” and noting that following Jeanne’s death Philip had “never wanted any other woman” and “had looked at none other and would never do so” (nearly identical to what Cersei, incorrectly, thinks about Tywin in the wake of his death).
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links ➠ event info ✧ rules ✧ send a request!
works will be added here in no particular order as they get (probably slowly) completed ^ ^ due to similar submissions, some requests have been combined into one. subject to change !!
BLUE LOCK
wherever you are, wherever you may be — i. rin
soulmates + "i'm done waiting."
itoshi rin meets you under a sky full of fireworks. he spends the next 6 years of his life trying to convince himself that he doesn't love you. you spend the next 6 years giving him every reason why he should.
another sunny day — i. rin
handcuffed together + matchmaking gone wrong
rin doesn't get how his "friends" can come up with such insane ideas. like, seriously.
to the ends of our world — i. rin
academic rivals to lovers + "i could kiss you right now!" + "we fell asleep by accident and woke up as a mess of tangled limbs."
all he said was that he would help you with calculus. he didn't think he'd be waking up to your morning breath and wishing the moment would last forever.
always watching over you — i. rin
enemies to lovers + drunk confession
if rin hates you then why is he calling you up at two in the morning?
the voice in my heart — i. sae
forced proximity + "oh no, the power went out, however will we stay warm?!" (/s)
itoshi sae doesn't like how mushy you make him feel, but the warmth is nice. kinda.
those words you spoke to me — i. sae
"i think i'm in love with you." + "don't look at me that way." + unrequited love (damn are you ok)
you were always staring at itoshi sae's back. he was forever chasing something greater, not once turning around to see that look in your eyes.
the love that binds us — i. yoichi
mutual pining + "i could kiss you right now!"
isagi yoichi already has you wrapped around his finger. now all he has to do is be brave about it. or, you know. impulsive.
GENSHIN IMPACT
across the violet sky — lyney
"you look beautiful in the moonlight."
all that fretting was over nothing, because he's looking at you now and the only thing he can think of saying is...
ink to paper — k. ayato
mutual & oblivious pining + "don't look at me that way."
yes, he thinks. what would he do without you? well, his schedule would be a mess, for one. and he wouldn't know how to cut bunny ears into his apples, either.
a simple mission — neuvillette
accidental confession + "say it again. please."
oh. oh no. you were most certainly not supposed to overhear this conversation between the iudex and the duke, but now you don't even know how to act right.
HAIKYUU
a place to call home — k. shinsuke
one bed + childhood rivals to lovers
"be kind, shinsuke." that's what yumie always told her grandson. and he would live by those words, even if it meant sleeping on the floor every weekend.
strangeling — u. wakatoshi
"we're fighting. i'll take the couch tonight." ➡️ (bonus) "we were fighting???"
it's not fair. how are you supposed to stay mad at him if he's going to choose you over the comfort of his bed?
JUJUTSU KAISEN
what it means to love — f. megumi
accidental confession + "do you want my jacket?"
turns out that being raised by gojo means sometimes accidentally throwing all inhibition into the wind.
letters from heaven — g. satoru
"i think i'm in love with you." + "wait, don't pull away... not yet." + oblivious pining
love tastes like chocolate ganache topped with fresh strawberries. that was satoru's first thought when he accidentally blew your cake shop into smithereens.
CHAINSAW MAN
adamantine dreams — h. aki
one bed + "wait, don't pull away... not yet."
there was a time before you when aki found it hard to sleep. call it sleep debt or whatever, but he's going to squeeze every ounce of rest he can get from his body now.
© NARIISM 2024 — please do not translate or post my works to other platforms.
#— whispers in the wind: 1k event ✉️#— whispers in the wind: 1k mlist ✉️#blue lock x reader#genshin x reader#genshin impact x reader#jujutsu kaisen x reader#haikyuu x reader
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Biden Leaves His Successor a World of Disorder
His policies have encouraged the advance of U.S. adversaries across the globe.
By The Editorial Board -- Wall Street Journal
President Biden will address the United Nations on Tuesday, in what is likely to be his last big moment on the world stage. A President’s foreign-policy legacy typically outlasts his term, so it’s worth taking a step back and considering the world Mr. Biden will leave his successor.
It is a far more dangerous world than Mr. Biden inherited, and far less congenial for U.S. interests, human freedom and democracy. The latter is tragically ironic since the President has made the global contest between democracy and authoritarians an abiding theme. Authoritarians have advanced on his watch in every part of the world—Europe, Asia-Pacific, the Middle East, Africa, and even the Americas.
***
• Mr. Biden’s chaotic withdrawal from Afghanistan was his single most damaging decision, and it has led to cascading trouble. The Taliban control the country and are reimposing feudal Islamist rule. His withdrawal has done more harm to more women than anything in decades, while jihadists have revived their terror sanctuary.
• More damaging is the message his withdrawal sent to adversaries about American will and retreat. The credibility of U.S. deterrence collapsed. Mr. Biden tried to appease Vladimir Putin by blessing the Nord Stream 2 pipeline and refusing to arm Ukraine. Mr. Putin concluded he could invade Ukraine at limited cost, especially after Mr. Biden blurted out that a “minor incursion” might not elicit the same Western opposition.
After Kyiv bravely resisted, Mr. Biden sent weapons, but too little and too delayed at every stage of the war. Even now, after 31 months and 100,000 or more dead, Mr. Biden dithers over letting Ukraine use long-range ATACMS against targets inside Russia.
• His record in the Middle East is worse. Rather than build on the Abraham Accords he inherited, he tried to ostracize Saudi Arabia and he banned offensive weapons to fight the Houthis. From the start he courted the mullahs in Iran to renew the 2015 nuclear accord that had enriched Iran before Donald Trump withdrew. He refused to enforce oil sanctions, even as Iran spread mayhem through its proxy militias.
The U.S. was caught flat-footed when Hamas, aided by Iran, invaded Israel and massacred 1,200 innocents. His national-security adviser, Jake Sullivan, had to edit an online version of a Foreign Affairs essay already published boasting that “the region is quieter than it has been for decades.”
Here’s how quiet: Our foremost regional ally is now at war on multiple fronts. Israel’s defensive campaign in Gaza isn’t finished and a new and perhaps bloodier fight is unfolding with Hezbollah. The Houthis have all but shut down Western commercial shipping around the Red Sea, while Mr. Biden makes U.S. naval commanders play whack-a-missile.
Meanwhile, Iran marches undeterred to becoming a nuclear power. The Biden Administration mouths pieties that this is unacceptable, but its every action suggests it believes a nuclear Iran is inevitable and trying to stop it is too risky. When Iran goes nuclear, the security calculus in the world will turn upside down.
• Mr. Biden’s record in the Asia-Pacific is marginally better, at least diplomatically. He has strengthened U.S. alliances against China, especially with Australia, Japan and the Philippines. The Aukus defense deal is important, as is Japan’s move toward closer military integration with the U.S.
Yet diplomacy hasn’t been matched by hard power. The U.S. isn’t building enough submarines to meet its Aukus commitment and U.S. needs. American bases lack adequate air defenses and long-range missiles to defeat a Chinese invasion of Taiwan. State Department foot-stomping hasn’t stopped Chinese harassment of Philippine ships.
• Closer to home, Venezuela’s dictator has predictably stolen another election, exposing the Biden Administration’s deal to ease oil sanctions as naive. Mexico is tilting in an authoritarian direction without U.S. protest. Cuba continues to spread revolution wherever it can. The resulting human suffering reaches America in the flood of migrants that now burden our cities, from Manhattan to Springfield, Ohio.
• Most ominous is the collaboration of these menacing regional powers into a new anti-Western axis. Iran supplies missiles and drones to Moscow, which may be supplying nuclear know-how to Tehran. China is aiding Moscow, which now joins Beijing in naval maneuvers. North Korea also arms Moscow while being protected by China from United Nations sanctions it once voted for.
***
All of this and more adds up to the worst decline in world order, and the largest decline in U.S. influence, since the 1930s. Yet Mr. Biden continues to speak and act as if he’s presided over an era of spreading peace and prosperity. He has proposed a cut in real defense spending each year of his Presidency, which may be his greatest abdication.
Addressing this gathering storm will be difficult and dangerous. The first task will be restoring U.S. deterrence, which will require more hard power and political will. Whoever wins the White House will have to abandon the failed policies of the Biden years, lest we end up careening into a global conflict with catastrophic consequences.
Appeared in the September 23, 2024, print edition as 'How Freedom Faded on Biden’s Watch'
REPOST THIS EVERY TIME
#Biden#Harris#Democrats#Obama#weak america#trump#trump 2024#president trump#ivanka#repost#america first#americans first#donald trump#america#REPOST THIS
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Your new money analogy falls apart when that privilege is not wanting to be murdered.
oh, sometimes getting vagueblogged at brings the strangers into your inbox. i’ll assume this isn’t actually the complainer-direct, as i do have a lot of respect for them. now, as for my facetious metaphor—
i’m incredibly sympathetic to the gods not wanting to die! no one wants to die! existential threats, and extending that, existential threats to your siblings? that’s basically the most sympathetic there is. i would also probably kill for my little sister even if she was terrible; that’s the awful truth of family.
but the matron of ravens is intentionally removed from this motif very early on. she separates herself from the “family drama” and her calculus is very different than the rest of the gods. it’s not just about survival for her, it’s about securing what she’s worked for. laura bailey doesn’t waste lines and when the raven queen describes wanting to experience “the infinite” i think you’re meant to go Hey Wait. she’s ambitious! this isn’t just about existing for her, it’s about a power she has fucking put in the effort to obtain.
i was being silly when i used new money because I’m silly about everything—as a rule my posts are mostly for the laff— but joking analogies of that vein did not start or end with me. aabria iyengar speaking ex-cathedra as ms. coramar-seelie described the matron as a “class traitor”. what does it mean to have been a person and then throw in with the gods?
i do think there is much more than pure ambition to the matron’s actions—her status as a goddess of fate, someone who sees the strings tying it all together is clearly very important in any analysis of her—but the ambition is there. laura bailey made the executive choice to highlight her condescension, her need to continue to experience not just life but godhood rather than focusing on pure self-preservation. it doesn’t make her unsympathetic, in fact it’s one of the more fascinating things about her. but it does open her up for some jokes! i’m sorry they’ve caused such controversy. please enjoy this image of the raven queen dressed up like the monopoly man.
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