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Can A Light Beam Its Speed 1.16 million km per second Be Found? (Revised)

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

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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tornadodyke · 2 years ago

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howwwwww did the class sections i need get filled completely up when registration isn't even open yet. like. girl. what. OKAYYYY THIS IS FINE WHATEVERRRRRR

#should be interesting trying to negotiate my availability at work. i'm already looking at remote internships that pay better anyway #i have to have an internship ANYWAY because i have got to get. my fucking foot in the door somehow. the fact that a lot of them are remote #and have flexible hours and pay almost $10/hr more than what i'm making rn are just bonuses #LIKE I DON'T FORSEE THERE BEING A PROBLEM TRYING TO CHANGE MY AVAILABILITY?? BECAUSE I'M ONE OF THE ONLY COMPETENT PEOPLE IN MY DEPARTMENT #AND THEY'RE VERY AWARE OF THAT??? BUT WORKING IN-PERSON WHILE TRYING TO ALSO HANDLE THE HEAVY ASS WORKLOAD I'M GONNA HAVE IN MY CLASSES #(WHICH IS LIKE. CALCULUS I. DISCRETE MATH 2: ELECTRIC BOOGALOO. COMPSCI 2. AND TWO OTHER CLASSES (EASY))#HOO BOY. AND I /NEED/ INTERNSHIPS ANYWAY.#i need to go complain about this in a giant blog post on my dreamwidth actually tumblr tags aren't good enough at this point

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ollieollieoxenfree-483 · 1 year ago

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Thank fuck someone said it

i never see positivity for us so: if you had bad grades, dropped out, or cheated your way through school i love you so much and you deserve the world <3

#gifted kid burnout #gifted kid syndrome #gifted kid problems #burnout #high school #pretty sure i had/have undiagnosed adhd and/or autism #school was rougher thaj sandpaper #actually tried to tell a teacher that the way they were teaching wasn't working for me and they didn't do shit #yk like theyre supposed to do #almost didn't graduate cause of that teacher (pre-calculus my ass) and had to retake the entire course online inorder to even be able to

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ace-with--a-mace · 2 months ago

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how does one study for math

#i have ap tests in 2 weeks exactly ive never had to studyfor classes before #especially not math i sorta just wing it snd everything works out #but i truly dont know how to study for calculus and its my only bad grade and i need to pass this ap test #but i dont know how to study at all #like i review my notes but my notes already have the answers. youtube practice problems are too easy #college board problems are too easy #(easy compared to my teacher's tests that i keep failing) and its like. ugh idk #i cant fail this test i cannot afford it but i dont know what to do #l speaks #shut up l #ranting in the tags because i can #ap exams #ap calc

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eli-is-an-idiot · 4 months ago

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I dont want to do further maths >:(

#why the FUCK does everyone in set 2 have to do it #fucks sake #it makes no sense #calculus is really annoying and how the fuck do matrices work #UGHH #its at 9am then my problems are over until may #and after may theyre over permanently #ugh

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alltheprompts · 6 months ago

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Dp x DC prompt #13 (yay lucky number!)

What if Danny is introduced to the family not as a gremlin, but as his friend from community College and he is so freaking normal that it makes the entire family suspicious. The only reason Jason decided to bring him along is that he knows Danny seems too normal for their cohort and it will utterly freak out Bruce and Tim, confuse Grayson and set off Damian. Jason though, he knows Danny is only normal for the first few times of interaction, then he starts getting weird even by Bat Family standards.

Jason: Hey. I brought my friend from campus tonight.

Danny: Hi! Nice to meet you!

Bat family: *suspicious eyes* Nice to meet you.

Danny: I totally didn't believe Jason when he said he was one of 5 kids but he proved me wrong. Lol.

Bat family: How'd you meet Jason?

Danny: OH! He's been tutoring me in English class and I've been helping him with Calculus. We met at the library when I was trying but failing to type a paper and ended up irritating him with my groaning. He walked right over asked me to shut up and I apologized and said I was having difficulty *insert English homework here* and he had a look utter disgust and surprise and said "how the fuck are you having problems with that?"

Jason: I was disgusted. That was such an easy topic.

Danny: For you maybe! Anyways I said "Well if it's so fucking easy, explain it to me. And he did! With way better clarity then my professor. So I thanked him and asked what I could do in exchange for help. He then told to stay fucking quiet o he can work on his stuff. And we went on about our business. A week later we were both back in the library again and he was banging his head, so I went over and asked if he was okay and he yelled to leave him alone and he just as I was about to leave I noticed he was working on calculus and told Jim I could help if he wanted. He looked at me like I was insane.

Jason: I was cause you are. Most people don't ask to help after being yelled and cursed at.

Danny: But you had helped me on my english paper! I wanted to return the favor! This happened a few more times before it became normal to meet at the library and work together!

The batfamily is reeling at this strangely normal and meet cute type story and the fact that Jason was going to college and nobody knew somehow (Alfred knew).

After meeting Danny, they stalk him to see if he was acting normal or trying to mess with Jason or Jason manipulated someone normal to mess with them. The first while Danny seems perfectly normal and innocent but after a while they start getting a feeling of something off about Danny like he was both him and not. They also notice that Jason tends to stay calmer when he is around Danny. As they realize he is weird and they slowly figure it out, they actually get less anxious about Danny. As someone not quite normal or human in Danny's case was far more comforting for them then anyone of them managing to befriend an actual normal civilian with no apparent baggage or extreme homelife. A

#danny fenton #dpxdc #dp x dc #danny phantom #dc #dc x dp #dp #dp au #dp crossover #dead on main

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er-cryptid · 9 months ago

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Synthetic Division [Ex. 2]

Patreon

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chanifesto · 2 months ago

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ᯓᡣ𐭩 mr. fix it | yeon sieun

pairing: yeon sieun x afab!reader (weak hero)

synopsis: yeon sieun was notoriously known as your program’s tech handyman. when he wasn’t hunched over calculus problem sets, sieun was busy fixing his peers' laptops, for a price of course—one that was nonexistent for you because you seemed to make his software hard.

genre: another smutty university au

word count: 6.9k

warnings: [MDNI!] explicit sexual content, grinding, making out, oral (f rec.), pussydrunk!sieun, piv sex, protected sex, many consent checks, sieun is so so gone for you, you are literally his pretty little angel, if devotion was a person it would be him, sieun can’t figure out his goddamn integral

reader notes: written with afab reader in mind. reader has breasts and a vagina. reader is described to look ‘small’ at one point. all characters are consenting and over 18 yo.

this fic was requested – thank you so much, i loved coming up with the concept .ᐟ

۶ৎ 𝑙𝑒𝑒'𝑠 𝑝𝑟𝑒𝑙𝑢𝑑𝑒 ࿐ park jihoon uggghhhh need need need him. had the most exquisite time picking out the concept pictures.

“You broke it again?”

His voice sounds flat, but there's a tinge of hope, a sense of subdued anticipation perking his last few syllables.

Sieun stares at the half-solved integral on his desk, phone pressed to his cheek, screen cold against his skin, fingers loosely gripping the sides. The warm glow of his lamp casts a nimbus over the mess made of a barely punched in calculation and his calculus textbook, pages worn from flipping back and forth between the chapter problem sets and appendix answers. Outside his window, the campus sky is dim, too gray for six in the evening.

“I didn’t break it!” Your voice crackles through the line, scratchy with frustration. Sieun can hear your breath over the receiver, rough and rushed.

“It just won’t turn on,” you continue, “I don’t know what happened. I just opened my tabs, and then—dead.”

He exhales. “And you tried plugging it in?”

“Yes, Sieun. I tried everything you taught me—nothing worked,” you huff, “I have an essay due Monday, and everything I need to write it is on this damn laptop.”

You sound slightly breathless, your voice hoarse with the kind of air that clings to lungs on chilly evenings. Wind rushes past the speaker, muddling your words with static. Sieun’s ears pick up on this.

“Where are you,” he asks, dull, but more abrupt than intended.

You’re silent for a few beats.

“Outside.” Another gust of wind bleeds through the receiver.

He feels the warmth of perspiration prick across his palms. “Where?”

The brisk, hollow rustle of plastic, and then, “Walking to your dorm.”

Sieun feels his breath dissipate in the back of his throat.

“I’m sorry,” you start. Sieun squeezes his eyes upon hearing these words in your soundwaves, words he thought were too unnecessary when masked in your voice.

“I saw the forecast, there’s going to be rain—shoot, I forgot my umbrella, I knew I was forgetting something��anyways, I figured I'd head over to yours before it hit,” there’s an unmistakable sincerity in your voice, “I really need you right now, Sieun.”

Need to murder him, he thought. Clearly, that was more fitting for the illusive objective of your last sentence, one that roused his hand to the back of his neck, called his fingers to smooth over his golden skin, wailed for them to curl against his flesh in hopes of helping him get a grip of himself. Literally.

He sighs, half flustered, half enlivened. “You’ll be here soon?”

“Yeah, just five minutes more.”

There’s a pause. “Okay.”

A quick exhale breaks past your lips, a restrained puff of air that had been trapped in the back of your throat, waiting for a green light to let it loose. “Thank you, Sieun.”

He can still feel the ghost of icy plastic against his cheek when you cut the call. Unfocused eyes cloud over the sheets and pens and smudged writing lazing atop his desk.

Of course.

Of course you’re coming over. Because why wouldn’t you? Your laptop’s dead, and he’s the tech guy, and this is just what happens. He fixes things.

And right now, you need him to fix your things. He couldn’t help but feel his heart jump at the idea, an eagerness creeping into his chest, fogging up his lungs and grabbing hold of the air that dared to escape up his trachea.

Sieun, as cold as he seemed, felt warmth fixing your things, like he’d swallowed the sun and it dissolved into his blood. Unlike the peers on your campus, he does it for you free-of-charge—hell, he thinks he’d pay you just to let him fidget around with your laptop’s battery that burns to touch or the program functions you can’t seem to figure out even after using the ‘help’ tab. He’d never admit to it though.

Not yet, at least.

His eyes flicker to the unfinished problem adorning his notebook, numbers and symbols half-formed, abandoned mid-line. The solution sits just out of reach.

Much like you.

His unfinished integral mocks him.

Your cheeks are flushed, supple and radiant, the dermal symptom of cool drizzle and dewy autumn air. Sieun’s eyes surf the strands of your hair, glinting from subtle rain droplets that catch even in the dim fluorescent light of his dorm hallway.

You look small like this in his doorway, backpack straps sagging over your shoulders, your sweater sporting little wet spots that are sure to smell like petrichor. Your hands tightly clutch a white plastic bag to your abdomen, the vertices of a cardboard box poking out at him.

You smile at him, small and sweet and a little flustered. “There was some drizzle when I turned onto your lane.”

Sieun’s gaze, currently traveling across the ridges tenting your plastic bag, snaps to your face.

“Oh.” It’s a soft expression, a barely-there phoneme he manages through concern for you—how dare the clouds cry over your angel face?—and some muffled curiosity.

Sieun just can’t help the fall of his gaze. He stares blankly at the bag in your hands. He’s not surprised when you take notice.

“It’s brownie mix!”

He peers at you again.

“Brownies?”

You grin sheepishly, fiddling with the plastic handles. “Yeah, I thought, well– you work so hard, you deserve a fun break, one you can get a sweet treat out of!” You pause. “And, I guess it’s also thanks for my laptop. You’ve saved me a lot of money I already don’t have, more than once now.”

He’s still staring at you, face blank, unreadable, lips sealed in a line, but his eyes gleamed. Whether it was annoyance or humour, you weren’t sure, but his dreamy, tired eyes gleamed.

Your eyes go wide. “Oh gosh, I should’ve asked you if brownies were okay. They looked so good on the box, I just had to pick them up. You could be allergic to chocolate, or maybe you don’t even like brownies–”

“Brownies are cool.”

Sieun watches your lips halt their rambling, configured mid-sentence, before they slowly spread into a toothy grin, one that radiates a warm feeling into his bones and almost—almost—makes his lip twitch up to match yours.

All you needed to do was force start.

That’s all.

No hardware to trifle with, no delinquent software meddling with your computer programs.

All Sieun had to do was press a couple buttons in tandem before your screen lit back up to life, resurrected from its cry of wolf.

Your cheeks had heated, bashful from your ignorance, but also a little humoured.

They blazed further when you caught sight of the calculus massacre on his desk, hurried apologies spilling past your pretty lips to wash out the guilt that crawled up your chest.

Sieun reassured you all was well—It’s fine, I was almost done anyways—with a look in his eyes that had you capitulating to his sincerity.

“Can I repay you with brownies?” you had prompted, fingers twiddling behind your back as if it would have subliminally helped rouse the answer you sought after.

Sieun slowly flattened your laptop to a shut before his Bambi eyes peaked at you and whispered exactly what you needed to know, exactly what you wanted to hear.

So, you’d both clambered in his tiny, cozy dorm kitchen, ingredients and bowls and utensils scattered across granite, instructions serenading the walls in your voice, Sieun’s hands working to mix the dark sea of cocoa batter.

You had assumed the role of a conductor but managed to pull a mess over you like a magnet. Whatever hadn’t been mixed into the warm batch of brownies basking atop Sieun’s countertop had found consolation on your being—cocoa powder and melted butter and drying batter decorated your skin and sweater.

Sieun thought it was the cutest thing he’d ever seen.

Of course, Sieun had missed any defiant ingredient attacks entirely.

You’d both picked up a piece each, melted chocolate furnishing your mouths while Sieun, starry-eyed and attentive, listened to you babble about your stress baking and how, no matter the many times you made something, you’d always be left with a bit of a messy souvenir from the process.

It was during this instance when the rain had hit.

Hard and harsh and pattering ferociously against the window of his measly living room. You and Sieun had snapped your heads at the sound, sticky embellishments of chocolate coating your fingers.

You’d looked so worried, so consumed in the thought of how you’d walk home through what was practically a typhoon. You hadn’t checked for a storm warning, all you’d known was a chance of rain. Your umbrella wouldn’t have stood a chance.

You’d looked so worried, so it felt almost natural when Sieun suggested you just stay over.

“...Really?” Your eyes were breaking past their sockets, and Sieun had nerely felt the weight of his words crash over him until your orbs softened and he saw the ghost of a smirk brush past your lips.

“Yeah, you can’t get home through that,” his voice had been tinged with his radiation of care for you. His eyes swept over your chocolate-covered frame. “You can use my shower if you want. I’ll give you some clean clothes to wear.”

You’d obliged. Quite happily.

And now, Sieun sat at his desk, unfinished integral staring up at him, the muted sound of his shower silking through the wall, almost louder than the merciless storm outside his window.

Sieun hadn’t touched his sheets or pens since he’d retreated to his room, changed into his own set of nightwear, and lowered himself into his desk chair. He couldn’t focus.

How could he? When you were just a dozen feet away, naked and wet under the rush of his shower.

He knew he shouldn’t think about it, begged himself not to, but when his mind slipped over the way you had chocolate powder flowering your neck and underneath your sweater, he couldn’t help but let his mind run, just a little.

Run over the way your fingers probably tucked under the bottom of your sweater, dragging it up along your beautiful body and over your head. What had you worn underneath? Had you even worn anything?

In Sieun’s little fantasy, you hadn’t. You’d been bare for him under your clothes, and he’d been ready, quick to ravish you, to kiss and suck and bite at your warm skin.

But, that was just a fantasy.

In reality, it didn’t matter whether or not you’d worn anything underneath your sweater. Sieun had just helped you out, made things a little easier for you, eased your anxiety by offering an innocent sleepover so you wouldn’t have to sacrifice yourself to what was the making of an ocean outside his dorm.

It didn’t matter, just like his integral, still unfinished. Deferred. Mocking.

The blood had barely made it to his cock before it was rushing back to his brain.

A couple minutes more of unsuccessfully undressing the math symbols littering his half-blank page and you were padding your way into his room, feet bare, heels marginally lifted off the cold floor of his dorm. Your clothes were folded, carried atop your forearms, and your cute body was swallowed in his t-shirt and shorts, sleeves too long, neck hole too wide, fabric swaying just over your knees with each of your scampered steps.

You gaze at Sieun from the edge of his bed, clothes now tucked away in your backpack, the hem of his shirt twirling in your fingers.

God, Sieun thought you looked ethereal, bare-faced and in his clothes. The warm, mellow glow of his desk lamp illuminates your face like a halo. Your sweet angel eyes are drowning him far past the storm outside.

Sweet oblivious angel eyes. If only they could see the mess he’d made of you in his head.

“Are you ready to sleep, or do you want to study some more?” Your voice is so soft, so melodious bouncing within the confines of his skull, and your eyes twinkle just right, brightened from his lamp and the mere cast of moonlight simmering through his window.

“I’m done,” Sieun starts, “You take the bed. I’m going to sleep in the living room.”

He’s about to push himself up when you cross your cute arms, defiant and determined. He watches your eyes narrow, eyebrows dip with a scrunch.

“Absolutely not!” you chide, your squint piercing. Sieun stares, half stood. He sits back down.

“It’s not fair to you! I showed up, practically unannounced, had you press a couple buttons on my laptop because I was too incompetent to figure it out myself, then made you make brownies with me against your will since you don’t take any economic compensation! And I know you’re not done with your problem set, I can see it from here. It’s exactly how you left it before we made those godforsaken brownies! I completely butted into your evening and messed up your studying, so you best believe you’ll be sleeping in your own bed and getting a good night’s rest!”

You puff at the end, like you’d said it in one breath, forearms glued to each other, fingers digging into your biceps.

Sieun is still staring at you, face blank, eyes gentle.

“You’re not incompetent.”

You blink.

“That’s not the point, Sieun.” You huff, pointing to his blankets.

“Now, get to bed.”

His eyes flick, your attention on his bed now shared. There’s an ease in the air, one that helps to hoist Sieun from his desk chair, click his lamp off, and carry himself over to the side of his bed. He lifts the corner of his duvet, slides underneath, and lets it fall over him. All without a peep.

His eyes scan to your frame, still at the edge of his bed, still in his too-baggy clothes, still looking too ethereal for him to indulge below the moonlight’s gaze, even in your quarrelsome stance.

You stare back at him.

“Okay… good.” You sound stifled, almost suspicious of his obedience.

Your arms unclasp, a little dazed at how fast he’d listened to you. With a hesitant scratch to your neck, you shuffle to what would be your side of Sieun’s bed, just for tonight.

Even though Sieun wishes it could be a less transient arrangement.

But he was doing this to help you.

Afterall, you’d looked so worried.

Sieun watches your warm body roll onto his mattress, feels it dip with your added weight from across. You shamble to face him, the duvet bunching in your hands, a relaxed, content tilt gracing your lips. Your cheek presses against the pillow, eyes squinting with warmth and kindness and gratitude and what Sieun could describe as a fatally contagious ray of tranquility.

You look so sweet like this, cuddled into his bed in clothes—his clothes—that swallow your body whole. The rain had slowed, granting permission to an even larger crowd of moonlight to flow over your face.

Sieun thought you were unreal, a mythical being from a dreamy world far beyond the current celestial limits.

A mythical being who saw him only for his technological abilities.

You were only here for tonight. Sieun was just helping you.

Because you had looked so worried.

So, he rolls onto his side, nearing the edge of the bed, hands tittering close to an abyss.

“Goodnight,” he grumbles. He doesn’t bother to pull the duvet to his front, lets it hang just over his side, as if any extra movement would make him appear more visible to you.

You gape at his back.

“Sieun!”

Sieun closes his eyes. Perhaps the world around him wouldn’t see him if he couldn’t see the world.

You puff, a frustrated push of air that has Sieun squinting his eyes shut further. He feels the duvet minutely ruffle behind him, feels the dip of the mattress sink gradually.

“I don’t get it, are you actually upset?” Although you were quiet, you sounded so disgruntled, confused. Sieun could only wish he was better at this so he wouldn’t have to bear your honey-like voice convey such emotion, like thrones stuck in a cloud.

But, Sieun was Sieun. A man of minimal words who spoke the truth and nothing but—until now.

“No, just trying to get a good night’s rest.” Just trying to keep my mind off you, so close, for just one night.

“Ugh! Will you just turn around so I can talk to you?”

Your hand reaches out and grips the collar of Sieun’s shirt, a tight grip pulling him towards you, a gentle grip to avoid attempted murder.

His eyes pop open, a hand catching onto the taut fabric around his neck. If there was the slightest chance Sieun’s conscious was to succumb to strangulation tonight, he thinks he’d only remember the warmth of your fingers fogging over the back of his neck.

Sieun yields to your force, falling onto his back. Why are you so damn strong?

With a hatch of his neck, his eyes find yours in the dark room, the patch of moonlight from his window dimmed from the roar of thunder and familiar strikes of heavy droplets against the glass.

There’s light provocation simmering through your face, playful like a child in a game of tag.

“Talk about what?” His voice is quiet but firm, his body a statue sandwiched between the mattress and sheets, daring not to move a millimeter.

You peer at him, words hanging along the tip of your tongue, as if debating whether they were worth speaking into the medium shared between your beings.

You decide they are.

“I know you take a fee from others when you fix their laptops.” There’s a quirk in his neck, a twitch at the corner of his lips that urges you further. “You’ve never taken one from me, even when I mention it. Why is that?”

Sieun feels a gradual quickening of his heartbeat at this concoction of your voice, and, like the start of a tornado, the thoughts in his head rampage into a whirlwind.

To be or not to be? Sieun, who previously seemed to lack any cognitive resources to solve his monster integral, was now calculating his next move with rigorous intricacy.

Maybe it was the kick in adrenaline that had him instigating your little game.

Sieun chose to be.

“Why do you think?”

Your eyes narrow in an instant, the entire play a chain reaction. Were you also debating your next actions, words? Were you also aware of the string snapping taut between you, tense and nearing a strong, sudden tear?

Sieun definitely was. Like always, he knew what he was getting himself into, knew he was igniting something far beyond repair, unlike the many laptops he’d resurrected.

Sieun knew what he’d started. He’d calculated it, perhaps from the very beginning, from the moment he uttered the word “stay.”

He was just helping you, for one night. Just one night.

You’d looked so worried, of course.

Perhaps Sieun had wanted your eyebrows to furrow from another force of nature—him.

Say something.

A quirk to your lips. Dark shadows in your eyes.

And a hand reaching out for his neck, this time to pull him to the plushest centre of your visage.

His lips graze the fullness of yours when you whisper in a breath.

“I knew to force start.”

Sieun isn’t spared a chance to retaliate his sockets stretching back when you press into him.

The dense pressure molds his own lips flush against yours, an electric fog swarming your face and down the flanks of your neck.

It’s a reflex, an abrupt, consuming, greedy reflex, when his arm curls over your back, big hand hastily grazing along your spine to knot into your hair.

Had Sieun fallen asleep?

This has to be a dream.

But your lips were too soft against his, too warm.

And your back curved so well along his forearm, strands so luxurious curled around his fingers.

Your hand on his chest, basking down his torso… Sieun believes he doesn’t possess even a speckle of the imagination required to muster a feeling as heavenly as that.

Definitely not enough to muster a feeling as heavenly as your hand sliding over him through his thin flannel pajamas.

You were a fallen angel who had come to play unsacred games.

And Sieun proved to be a worthy opponent.

His fingers grip around the base of your skull to pull you from his lips.

His eyes are heavy with a murmur of inquisition, flitting over your lips before boring into your own with words unspoken. You mirror his gaze with equal weight, savouring his quiet inhale when you push further down over his hardening curve, feathering your hand up to rest against the supple part of his abdomen.

“You know where this is going.” It was a statement, a quiet, breathless, almost restrained mutter carrying all the responsibility and uncertainty and anticipation littered within Sieun.

You gaze, knowing, unbothered.

“This is what you want? This is what you came for?”

“Yes,” you whisper, “Take it as part of my thanks.”

“I thought the brownies were your thanks.”

You smirk. “That was just the appetizer.”

Sieun scoffs quietly, a humble pfft to accompany the fingers gently rubbing over the bottom of your scalp, a means of easing into his next utterance.

You were drowning in his milk chocolate orbs, a velvety sea full of nothing but care and adoration and awe for you.

“Are you sure you want to go further?” Any quieter and the storm battering upon his window would have drowned his sound completely.

“Yes, Sieun.”

That was everything he needed to hear.

A gentle push to your neck has your lips pressing back into the plushness of his own.

It’s a slow kiss, chaste but blazing with the need you’d both been bearing for months. You move against the other, the ghost of anticipation urging you further into it.

Sieun definitely is not dreaming.

All his prior frustration, graced from his still unsolved practice set and the many long, agonizing weeks of indirect contact with you, melts away, leaving a tender warmth to dry in its place. Your lips feel as soft as—no, they were softer, so much softer, and warm like sun rays on cold skin—the many times he’d imagined the ghost of them wisping against his.

A transient ghost, barely lasting a mere tortuous ten seconds. He’d stop himself from savouring it, pry the ghost away before his hopes shot higher than the sky above him.

But now, you were here, tangible, with your mortal lips on his. They were so supple, so plush and warm and real. And they were flush against his. No one else but him.

Sieun had spent so long denying your fabricated being, the one who would distract him from his problem sets, urge him to isolate from the many gadgets his peers would throw his way in times of technological misfortune.

Sieun decided it was finally time to show you what your ghost had been doing to him.

He sucks in your bottom lip, hands grazing over your hips to pull you over his growing hardness with a delicate hold, treating your vessel like original vintage artwork. Fragile. Authentic. Godly.

The duvet shifts against your back while you shift over him, the core of your heat finding solace over his own. The hem of his borrowed t-shirt rides up your torso like it knows what’s coming.

It’s an abrupt, consuming, visceral feeling when you first connect with the stiff rod bulging against the stressed material of Sieun’s pajamas.

It’s the same for Sieun, so when a small groan muses from the depths of his throat at the feeling of your heat radiating along his length, he remains basking in its aftermath.

Lips still working into each other, you almost don’t acknowledge the slow, tantalizing roll of your hips.

Sieun does, and it drives him crazy.

Sieun, who was always so cool, composed, and distant was now growing hot and undone, all while pressing himself further into you, meeting you at an undefined middle, ridding any and all separation from your heating bodies from the insufferable vexation of need.

His hands knead into your hips, bearing your heat further along him, before they configure to push himself up while embracing you flush against his chest.

You’re consuming him, physically and mentally. Your lips on his, your body wrapped tightly around his own, hot cunt slowly grinding over the hard curve of his cock, a barrier of too much fabric plastered between your beings and pushing you both into frustrated desperation.

Your name, your scent, the suppleness of your skin, they all fog his head, conquer it with the ghost of you.

Both your mortal and immortal forms had possessed him, consumed him whole until he was nothing but a spec of utter devotion to you and you only.

Your hips grind again, slow, sinful, and Sieun’s breath stutters against your mouth.

You feel the shiver that rebounds through him like a tremor, feel the tight grip of his hands at your waist falter before steadying again, tighter this time, as if he needs to anchor you, or maybe himself.

His lips leave yours only to trail hot, desperate, open-mouthed kisses along your jaw, your neck, your crescent of skin beyond the shirt’s collar, the devotion in each press of his mouth turning you molten.

“You feel…” he murmurs, barely audible, like he’s speaking to himself, “…too good. Too good to be real.”

You tilt your hips forward again, slower, answering him with equal desperation, and Sieun’s head tips back, a ragged exhale pulling from his throat. The sight strikes you—his lashes trembling, his brows knit together in pleasure so raw it borders on pain. He looks ruined.

Kiss-swollen lips and flushed cheeks, shades of pink colonizing his visage in the shower of eventide luminosity.

You don’t realize you’ve gasped until his gaze finds you again, pupils blown wide and gleaming with disbelief. His thumbs rub along your hip bones, a fragrant sensation even through the fabric of his shorts you adorned.

Your hands glide under his shirt, pushing up until he’s reaching for the edge himself, prying the shirt past his head and letting the fabric fall to the cold hardwood beneath his bed.

His hands slip beneath the hem of your own, and his touch is hesitant, wavering, like he’s afraid you’ll vanish if he reaches too far.

“Can I…?” he asks, voice husky and threadbare, already tugging at the fabric.

You nod. His hands glide up, slow and reverent, brushing over the curves and valleys he’s only ever imagined, each touch leaving heat in its wake.

He drinks in the sight of you like he’s been thirst-starved for days, gentle eyes falling over your face and down to your taut peaks. You weren’t a ghost anymore—you were a dream, glowing and radiant beneath the muted haze of damp moonlight.

And when your bare chest presses to his, skin to skin, nothing between you but the thundering pace of your hearts, Sieun chokes out a soft, desperate moan.

The ghost of you has vanished.

What remains is you—real and soft and warm and all his.

And he’s no longer a boy haunted by longing. He’s a man who’s finally allowed to feel.

Your fingers find the nape of his neck, weaving into the soft strands of his hair, and the sound he lets out—broken, hushed, completely unguarded—settles somewhere deep in your chest.

Sieun’s lips return to yours with more urgency now, less caution, the kind that only comes when desire and restraint blur into the same overwhelming thing. His tongue traces your bottom lip before slipping inside, gentle, exploratory, worshipping, like he’s memorizing you.

Every movement of his hips under you is hesitant but needy, as if he’s still trying to slow himself down, still trying to process that you’re not slipping away.

“You’re driving me insane,” he whispers against your mouth, voice hoarse and cracking like lightning behind the storm-glassed windows.

He kisses you again, softer now, almost like an apology for how his hands are now gripping at the swell of your thighs with mounting desperation.

Then, with a breath that shakes against your lips, Sieun pulls back. Only just.

“Lie back,” he murmurs, voice low, thick with something you’ve never heard from him before. Anticipation, maybe. Hunger, definitely.

You do, painfully unlatching from his warmth and sinking into the pillow behind you.

Sieun follows, crawling down the length of your body like a man crossing sacred ground, his drowsy gaze never leaving you. It lingers on the slope of your neck, the lines of your collarbone, the tender stretch of skin bare to the cool air of his bedroom. Each inch he memorizes like scripture, utterly fascinated and unspeakably enamoured.

“You’re…” he begins, almost too quiet to even comprehend, but trails off, like no word quite fits what you are to him.

And then you see it. The way adoration turns to ache.

A valley of creases between his brows, a marginal slit parting his pout, the quickened wisps of air trailing out of him. He’s wrecked, far past.

And you had barely touched him.

Sieun’s hands slide up your thighs, calloused fingertips brushing along the waistband of the very shorts he lent you, the ones riding too low on your hips, the ones he's dreamed about you in far too many nights to count.

He kisses the inside of your knee.

Then your thigh.

Then the soft dip just above your hip bone.

His hands move, thumbs hooking into the waistband. There’s a beat—one last, wordless check—and then he draws them down.

And stops breathing.

You’re bare beneath them. No panties. Just slick, glistening proof of how long you’ve wanted this too.

“Fuck,” he breathes, like it’s been torn from him. His jaw goes slack, eyes shadowed with affection and disbelief. “You didn’t wear—?”

He doesn't finish. He can't.

His hands twitch.

You’ve rendered Yeon Sieun speechless.

Sieun blinks once, twice, like he’s trying to process the sight before him, trying not to let it undo him entirely.

But it does.

It does.

He swallows hard, jaw flexing as his eyes drag along the slick sheen glistening between your thighs, warm and glimmering and pooling out of you sans constraint.

His hands settle on your hips again, firm, needy, desperate.

“You’ve been like this this whole time?” he whispers, voice hoarse, eyes flickering up to meet yours, the question half-shattered already. “Wearing my shorts… like this?”

You don’t have time to answer.

Because Sieun leans in, drawn like a man starved, mouth ghosting just above your heat and breathing you in.

His composure fractures there.

A low, guttural sound breaks from his throat as he presses a slow, devoted kiss to your core. Just one.

Then another. Then again, deeper, wetter, until his tongue slides through your dampened heat with a shuddering groan of restraint and craving colliding all at once.

Your hips twitch and Sieun’s grip tightens instinctively, his fingers digging into your waist to anchor you to him like you might vanish otherwise.

His tongue moves again, slow and patient, still trying to worship even while losing his mind.

But you’re so wet, and he’s so gone.

Each soft moan that slips from your lips draws another shaky exhale from him, each roll of your hips a crack in his control.

He tries to keep it measured. Gentle.

But then he hears you gasp his name, all broken and raw, and something inside him snaps.

His pace quickens.

He licks into you deeper, more desperate, tongue flicking, flattening, circling like he’s chasing a high that stubbornly runs just a step out of his reach. His nose brushes your clit and he doesn’t even think to pull back.

He wants it all.

You feel his moan against you, deep and wrecked, and you realize:

Sieun isn’t composed anymore.

He’s hungry.

Possessed.

And completely, unbearably devoted to the taste of you.

You’re gasping now, each breath shallower than the last, and Sieun can feel you trembling beneath his palms.

It spurs him on, wrecks him in ways he never knew were possible.

His thumbs rub slow circles into your hips, as if to soothe you, steady you, but his mouth is relentless, nose tirelessly working into your nub. His tongue is languid one moment, then firmer the next, lapping through your folds with aching, focused precision, memorizing all that makes you fall apart.

You roll into a nimble arch, head tipping back, and your thighs quiver where they rest over his shoulders.

“Sieun—” you whimper.

His name breaks in your throat, and that’s what crumbles him.

He groans into you again, the vibration shooting straight through your core as he licks you harder now, deeper, more rhythmic, mouth coaxing you right to the edge, right to the place he’s been aching to take you.

His hands are cradling your hips now, keeping you spread open, helpless, vulnerable, his.

And then he whispers it, barely audible, a prayer into your skin.

“Come for me.”

Your breath catches.

“Let me taste all of you,” he mumbles again, like he’s asking for divinity, like your pleasure is holy.

And when you finally do, when your body tenses and your thighs clamp tight around his head and that beautiful cry of his name leaves your lips, Sieun doesn’t stop.

He groans into you, licking you through it, drinking it in like he’s never tasted something more sacred.

Like he’s never belonged more to anything—anyone—than he does to you in this moment.

And even after the tremors still, even when you’re limp and gasping and glowing beneath him, he keeps kissing you softly, as if he can’t bear to let you go just yet.

As if this is how he says I’ve wanted you like this forever.

You’re still panting when he pulls back, lips slick and pink, eyes hooded and blown wide with awe. He looks stunned. Disheveled. Like a man undone by worship.

But you, squirming and aching and desperate to have all of him, manage to find your voice.

“Sieun,” you whisper, reaching for him. Your fingers trail along his jaw, coaxing him up until he’s hovering over you again. “I want more.”

His breath hitches.

Your palm slides over his chest, feeling the rapid beat of his heart beneath his ribs. “I want you inside me.”

Sieun stills completely.

And then his eyes close, jaw tightening as if your words alone could undo the last shreds of his composure.

“Fuck,” he breathes, voice rough with disbelief.

He kisses you, not hard, not hurried, but slow and deep, like it’s all he can do to keep from losing control. You savour the heady taste of your slick coating his lips. He presses his forehead to yours, and mutters shakily, “One second.”

You watch as he reaches for the drawer beside his bed and pulls out a condom from the crumpled blue box Hu-min had shoved at him weeks ago with a stupid grin and no explanation.

He’d meant to throw them out. He hadn’t.

He tears the foil open with controlled fingers and slides his flannels and boxers off his body, finally bearing himself free.

He’s thick, flushed, already leaking from the tip. He hisses under his breath as he rolls the condom on, fingers twitching like he’s barely holding it together.

When he settles between your thighs, eyes drowning in your sight, the air changes.

Gone is the boy who’s too quiet, too closed off, too powered from the urge of indignation.

What remains is Sieun drowned in passion, eyes wide and dreamy and dazed by the sight of you spread open for him, the warmth of your body beckoning his own.

“You sure?” he asks again, voice almost too tender.

You nod, pulling him down into a kiss, and guide him with a soft whisper, “Yes. Please, Sieun. I want all of you.”

He exhales shakily.

Then he lines himself just beyond your heat, and with a leisurely push of his hips, he slides inside.

You both gasp.

You’re hot and wet and hug onto his inching cock, and he sinks in like he’s always meant to belong there.

“God—” he grits, arms quavering on either side of you as he tries not to lose it too fast, forehead dropping to your shoulder.

“You’re…” His voice cracks. “So good. So—gosh, I don’t—”

You wrap your legs around him, anchoring him to you, and moan when he rocks forward again, deeper this time. You feel everything, every inch, every pulse, every lazed drag.

He starts slow, shallow, testing your fit, his own restraint. His hips roll into yours with a tender kind of ache, like he’s afraid to break you, like each inch of him inside you is a miracle he can’t fully comprehend.

But your body answers with desperate softness, clinging to him like silk caught in wind. You tilt your hips, chasing more friction, and whimper at the way his cock presses deeper, fuller, perfectly where you need him.

Sieun moans, a sound so broken and quiet it nearly guts you.

“Please,” you breathe, clutching at his back, your voice hitching with each movement. “Don’t hold back.”

His jaw clenches. His eyes flutter shut.

And then he moves deeper, hips rocking into you with a fluid rhythm that makes your breath stutter and your legs tighten around him.

The friction is delicious. The stretch, overwhelming yet cosmic.

Sieun presses closer, burying his face further into your neck, panting softly against your skin.

“You’re so—” He chokes on a groan as your walls flutter around him. “You feel unreal.”

You drag your nails lightly down his spine, whispering back between moans.

He fucks into you slowly, like it’s sacred. Each thrust is a vow, a prayer, an unraveling. His hands are everywhere—one gripping your thigh to anchor you to him, the other cradling your jaw like you’re too precious to let go.

Your body sings for him. You meet each movement with your own, hips rising to greet him, rolling and shifting to take him deeper, to keep him close.

Your moans mingle with his gasps, the heat between you building with every thrust, until there’s nothing left of restraint, only the desperate, languid drag of two bodies finding rhythm in devotion.

Sieun lifts his head to look at you—really look—and what he sees makes his hips stutter.

Your face, flushed and shining, lips parted, still pink and swollen, eyes glassy with bliss and admiration.

You’re breathtaking. And right now, you were his.

He moans again, broken and stunned, and leans down to kiss you like he’ll fall apart if he doesn’t, slow, messy, teeth grazing lips, all while his hips begin to move faster, harder, chasing something he’s never dared imagine before you.

Your bodies are slick with heat and need, the world around you reduced to nothing but the way he fits, the way he fills, the way he worships you with every thrust.

Sieun is whispering your name like a lifeline, like it’s the only word he knows, murmured into the skin of your throat, your jaw, your lips, as if it can tether him to reality while he teeters on the edge of something vast and consuming.

“You feel so good,” he rasps, voice hoarse and reverent. “So perfect—you’re perfect.”

Your back arches, body shuddering as he angles his hips just right, deep and slow and precise, hitting that spot inside you that makes gush over his length.

Your moans turn high and breathless, desperate.

“Sieun—” you gasp, legs tightening around his waist, pulling him in deeper. “I’m close—oh god—”

He knows.

He feels it, the way you start to flutter and squeeze around him, the way your breaths collapse into whimpers. And even through the haze of his own rising pleasure, Sieun slows down just enough to draw it out for you, to feel every quivering second of it.

“I’ve got you,” he whispers, breath stuttering. “Come, please.”

And you do.

It rushes over you in waves—white-hot, pulsing, unstoppable—your climax washing through your entire body with a strangled moan, your limbs tightening, your voice shaking as you cry out his name.

Sieun swears under his breath, something desperate and soft, and then he loses it.

The way you clamp around him, slick, pulsing, so warm, is all it takes to send him spiraling. His rhythm falters, hips stuttering, muscles trembling as the pressure finally breaks. He groans, deep and guttural, and spills into the condom with a few last shallow thrusts, his whole body curling into yours like he’s trying to fuse the two of you together.

And when it’s over, when the tremors in both your bodies begin to subside and your chests press together in exhausted, blissful rhythm, he stays.

Buried in you, breathless, consumed. His forehead pressed to yours, his lashes fluttering, lips ghosting your cheek.

And finally, his lips quirk at the corners, gracing his features with a small, gentle smile.

Because he decides he won’t be washing his shorts.

And he thinks he’ll get you to ruin another pair when you bring your laptop over for him under the guise of fixing it again.

৬ৎ 𝑙𝑒𝑒'𝑠 𝑝𝘰𝑠𝘵𝑙𝑢𝑑𝑒 ࿐ i decided for a soft, feral rendition of sieun’s university au. this will be the last weak hero fic i write before i move onto skz and atz! need more? you can read hyuntak’s version over here ⌯⌲ smart girl

───── how do we feel about starting a taglist?

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cloudtransprncy · 5 months ago

Text

Dumb/Problem

Kim Chaewon x Male Reader | 4k words Tags: cheating, light bratty elements, backshots, reckless decisions, tension, guilty pleasure Next Pt 2.

Cutting class to get a break? Nah. Cutting class to fuck your girlfriends best friend? Yesssssir

Is this dumb?

Skipping class just to fuck your girlfriend's best friend?

Absolutely.

But with her soft bed under your knees and your hands gripping her hips—who gives a shit about being smart right now?

Chaewon's room is exactly like her—carefully curated chaos that feels effortless.

All-white sheets that tangle around your legs, a fuzzy cream blanket kicked to the side. Squishmallows stacked against her headboard, now knocked over from how hard the bed's shaking. BTS watching from a poster on the wall, vinyls of SZA and Keshi mounted near her mirror like trophies. Polaroids scattered across her wall—blurry concert nights, drunken smiles, memories you're not part of.

Her dresser is a mess of half-open products—lip masks, serums in glass bottles, perfumes that cost more than you make in a week. The scent of her hangs in the air—sweet vanilla with something darker underneath, something that gets under your skin and stays there.

A Bath & Body Works candle sits for show, not for burning. Makeup scattered like she got ready in a hurry—an open tube of lip gloss, an eyelash curler abandoned.

Nike slides kicked off by the bed, a Starbucks cup still half-full on the nightstand. Your hoodie thrown over her chair—she took it last week and never gave it back.

Chaewon's face is pressed into the mattress, her messy bun barely hanging on, blonde strands sticking to her neck as she gasps. She's arching her back for you, pressing her ass against you as you sink your cock into her, her pussy gripping you so tight it makes your vision blur. The wet sounds of her taking you fill the room—slick, obscene, mixed with the slap of skin on skin and those breathy little moans she tries to muffle in her pillow.

Her skin is hot beneath your hands, a thin layer of sweat making her glow in the dim light coming through her curtains. That sweet vanilla scent gets stronger as her body heats up, mixing with the unmistakable smell of sex.

Her white tank top is riding up her back, bunched around her ribs. You keep pushing it higher, needing to see more of her, to feel more of her skin under your hands. Your eyes can't get enough of her—the curve where her waist dips before flaring to her hips, the way her body trembles when you hit just right.

Rough. Desperate.

She shudders when you dig your fingers harder into her waist, leaving marks that will still be there tomorrow. Her nails claw at the sheets, hips rocking back, trying to take control, but you don't let her. You decide the pace. You decide how deep. She just has to take it.

Her breath catches on a moan when you thrust harder. She feels too fucking good, squeezing around your cock like she was made to take you, like she's trying to break your self-control.

Then—light cuts through the moment.

Your phone, half-buried in the rumpled sheets, screen glowing bright. You don't need to check it.

Eunbi.

Your actual girlfriend.

Chaewon's supposed best friend.

She has no clue. No idea you're not in calculus right now. No idea you've got her best friend's ass pressed against you, your cock buried inside her.

Probably just asking about hanging out later, or sending you some stupid TikTok that made her think of you. Something sweet and normal because that's who Eunbi is.

You flip the phone over, face down against the bed. You shouldn't be here. You should be in class. Or with Eunbi. But Chaewon pushes back against you, and those thoughts disappear real fucking quick.

Chaewon turns her head, looking back over her shoulder, breathless but still fucking smirking. "Going to ignore her like that?"

Instead of answering, you press your hand between her shoulder blades, shoving her face back into the mattress.

She moans, the sound muffled by sheets, but you can hear the smile in it. Even with your cock inside her, she's still playing games.

"Bet she'd cry if she saw you like this."

Something dark twists inside you at her words. Your grip turns bruising, thrusts harder, deeper, and whatever smugness she had vanishes in an instant.

Chaewon whimpers, nails digging into the sheets hard enough to tear them, thighs trembling. She can't keep up anymore, can't match your rhythm as you fuck her harder than anyone has before.

She gasps out something—your name, "fuck," maybe both—but it breaks into a high, desperate sound that lets you know you've won.

Eunbi is good. Beautiful. Sweet. She gives head like she read about it in a magazine. She's the kind of girl people expect you to stay loyal to.

But Chaewon? Chaewon is filthy, tight, and knows exactly how to crawl under your skin and live there.

Eunbi texts you good morning with heart emojis. Chaewon sends you pictures of her tits when she knows her best friend is sitting right beside her.

Eunbi kisses you like she's making promises. Chaewon bites your lip until you taste blood and laughs when you wince.

Eunbi's the girl you bring to prom. The girl your mom loves. The girl who makes you lunch and saves you a seat in the cafeteria. But Chaewon's the girl you ruin your life for.

She's still testing you, still pushing back against you even as she falls apart. "You're holding back," she accuses between gasps, her voice shaky but challenging.

Your jaw tightens. She always does this shit. Always wants to see how far she can push before you break.

You answer with a thrust so hard it knocks her flat against the mattress, her blonde hair spilling across the white sheets. She gasps, a shocked sound that's almost a yelp, but when she looks back at you, that fucking smirk is still there, daring you for more.

"Fuck—slow down—" she starts, but you both know she doesn't mean it.

Your fingers dig into her hips, dragging her back onto your cock as you set a pace that finally wipes that smug look off her face. Whatever game she was playing dissolves into gasping breaths and desperate moans she can't hold back anymore.

She's squeezing you so tight it's hard to think, too good to remember why this is such a fucking bad idea, too perfect to care about who keeps blowing up your phone from the other side of the bed.

Your phone vibrates against the sheets. Again. And again.

Chaewon notices, of course she does. She lets out this breathless little laugh that makes your stomach flip, barely turning her head, voice syrupy and taunting like the cherry slushies she's always drinking between classes. "Does she even make you feel this good?"

You don't answer. You push her face into the mattress instead, feeling a rush that's better than any post-game high you've ever chased.

She moans, muffled against floral sheets, but you can hear the fucking amusement in it, the way she's still enjoying this too much, like she's winning some bet with herself.

If she wants it rough, she's going to get it. And God, every bone in your stupid teenage body is screaming to give it to her.

Your hand slides up her back, fingers wrapping lightly around her throat as you lean down, your varsity track team t-shirt sticking to your chest with sweat, voice low in her ear. "Take it, take that dick."

She instantly becomes a whimpering, moaning mess beneath you, her whole body quivering. You can feel her pussy clench tight around you, gripping your cock like she's desperate to keep you inside. She licks her lips—you can feel the sticky gloss against your palm—her breath hitching in that way that makes you dizzy, and pushes her hips back against you again. A deliberate roll that makes you forget there's a calc test tomorrow you should be studying for.

That's all you need.

Your grip tightens, forcing her still, making sure she takes it. She chokes out a gasp, her whole body shuddering against yours, her thighs—always toned from cheer practice—trembling as you fuck her deeper, harder, until her teasing completely breaks apart.

At this angle, with your weight pressing her down, you can feel everything—every slick, desperate clench around your length, the obscene wetness that spreads between you each time you push back in. It's suffocating, consuming, a vice of heat wrapped around you, pulling you deeper into something you shouldn't want this badly but fuck, you'd fail every class for this feeling.

Her hand reaches back, grabbing blindly for anything to hold onto—your wrist, your thigh—until she finds your arm. She grips it hard, nails dragging over your skin, feeling the way your muscles flex under her fingers. Feeling you as she feels you inside, the same fingers that wave to Eunbi across the cafeteria now digging into your skin.

Your phone vibrates again, the buzz muffled against the rumpled sheets where you flipped it face down earlier. Neither of you look at it. Neither of you dare.

Chaewon's breathless now, moaning into the sheets, a mess beneath you, every ounce of her earlier cockiness gone, replaced by something desperate and hungry that makes you feel ten feet tall. The most popular girl in school, falling apart for you.

If you were a better person, you wouldn't be here.

But you're not. You're the kind of person who thinks about this—about her—even during fourth period when Eunbi is passing you notes with little hearts drawn in the margins.

A noise outside the room—soft, but distinct. A car door? Her mom home early? Your body tenses, every muscle tight, your breath catching mid-thrust, the reality of where you are crashing in.

Chaewon hears it too. Feels you hesitate.

And then she laughs. Breathless, airy, like this is the funniest thing that's happened all day, like the thought of getting caught is just another cheap thrill.

"Aww, scared someone's gonna catch you balls deep in me?" Her voice is teasing, dripping with amusement, even as her legs tremble beneath you, her Victoria's Secret Pink thong still dangling from one ankle.

Your fingers flex around her throat in retaliation, squeezing just enough to make her gasp. She barely has a second to process it before you slam her down, your grip unrelenting, then flip her onto her back so fast she barely has time to catch her breath, her blonde hair—perfectly highlighted last weekend at a salon that costs more than your car payment—slipping free from its messy bun, wild against the sheets.

Your cock slips free in the motion, and you grab it tight, feeling the obscene slickness coating your length, dripping from her. It's wet—wet as fuck—before you slap it against her swollen folds. The sound is loud, filthy, obscene—wet as hell. Your cock slides against her, dragging through the mess between them before you shove it back in. She shudders, her breath hitching, her thighs twitching as you tease her with the weight of it before pressing forward, sinking back inside.

Chaewon's eyes flutter, her breath catching as you force her legs up, pressing her thighs flush to her chest, pinning her in place, giving her no room to squirm away. The new angle has her gasping, hands flying up to your arms, gripping tight, her nails—freshly done in that pale pink Eunbi helped her pick out yesterday—dig into your arms, clinging tight like she's bracing for impact, like she needs something to hold onto before she breaks completely.

The bed shifts beneath you, and your phone vibrates once more, the buzz reverberating through the mattress, felt through every grinding thrust. You both feel it. Neither of you care. Not when you should be in Mr. Kim's class right now, not when Eunbi thinks you're taking notes instead of taking her best friend.

Your only focus is on the way she clenches around you, the way she gasps your name between ragged moans, the way she completely melts beneath you, nothing like the ice queen who rules the hallways.

Chaewon's hands fly to your shoulders, nails digging into your skin as she pulls you down to her. There's nothing delicate about it—her kiss is messy, frantic, her lips parted, her breath hot and ragged against yours. She kisses like she's starving for it, like she wants to taste herself on your tongue, like she doesn't care how sloppy it gets.

Your tongues tangle, wet and uncoordinated, her mouth opening wider, drool slicking your chin, mixing with the sweat beading along your skin. She moans into it, needy, desperate, hips shifting beneath you, trying to keep up with the way you fuck her, so different from the composed way she presents herself in class.

You pull back just enough to catch her dazed expression, lips swollen, spit-glossed. A strand of saliva still connects you, snapping when she licks her lips, pupils blown wide with something dangerously close to obsession.

"You don't kiss her like that," she breathes, and it's not a question. It's a victory lap.

No, you don't.

Eunbi kisses soft, slow, careful—under the bleachers after school, sweet and innocent. Chaewon kisses like she wants to ruin you for anyone else. And you let her.

Your response is a sharp thrust, making her yelp, making her arms tighten around your shoulders. Her back arches off the bed, the tiny gold cross necklace her parents gave her for her birthday sliding against her collarbone, and you take the moment to move, dragging yourself out until just the tip remains before shoving back in, hard. Her breath hitches, body tightening, legs shaking.

Then you stop moving.

She whines immediately, brows furrowing, her legs squeezing around you, trying to force you to keep going. But you don't. You let the frustration build, watching her squirm, watching her writhe beneath you—wet, glistening, flushed deep with arousal. She's a fucking mess, and you're not done making her one.

You let the moment hang, let the desperation settle before tilting your head down and spitting—right on her clit. The thick glob lands exactly where you want it, shining against her swollen bud. Before she can even process it, your thumb is there, pressing in, rubbing it in slow, deliberate circles as you start moving again.

She chokes on her breath, body jolting like she just got caught cheating on a test.

"Fuck," she whimpers, fingers clawing at your forearms, legs shaking with every tight, controlled rub.

You're still hovering above her, watching her squirm, watching her fall apart beneath you, burning this image into your brain to replay during the classes you actually attend.

"Eunbi wouldn't let you do that," she gasps, voice breaking, teasing even as she crumbles, the same mouth that gives morning announcements over the school intercom now whimpering your name.

No, she wouldn't.

Eunbi wouldn't moan like this, wouldn't beg like this, wouldn't be dripping like this. Eunbi wouldn't take you like this, wouldn't even dream of skipping AP Lit to fuck in an empty house. Eunbi is SAT prep courses and college applications and volunteer hours.

Chaewon is this.

And that's why you fuck her harder.

Your thrusts grow rougher, deeper, driven by something reckless and insatiable, something you're too young to name but old enough to crave. Chaewon's body rocks beneath you, her moans turning sharper, breathless, spilling into the thick heat of the room. You press down, pinning her fully against the mattress, making sure she takes every inch, making sure she feels all of it.

Her nails scrape against your back, leaving marks that'll sting in the shower after practice, her legs tightening around your waist, pulling you closer, needing you deeper. Her breath stutters between gasps, each one catching higher as you fuck her harder, hungrier, as if there's no tomorrow—no girlfriend still calling, no consequence waiting outside this room, no college future that could evaporate if this gets out.

Risk of getting caught? Forgotten.

Guilt of cheating on your girlfriend? Forgotten.

Eunbi? Forgotten.

The only thing that matters is the way your cock fits so snug against Chaewon's walls, the way she clenches down, tight and desperate, squeezing you with every frantic, high-pitched moan as she completely loses all composure. The Queen Bee of your high school reduced to a whimpering mess beneath you.

She's right there, on the edge, her nails dragging, her hips bucking up, desperate to finish. But you don't let her have it. Not yet. Not when seeing her like this—completely undone, completely yours—is better than any high you've ever chased on the field.

You slow—not in pace, but in control. Shift your weight, dragging her with you, rolling her onto her side without ever slipping out. One of her legs hitches over yours, your grip securing it in place as you push in again, deeper, the angle hitting something inside her that makes her whimper, makes her entire body tense up like she's been shocked.

Her fingers claw at your arm, nails pressing into taut muscle built from varsity workouts, her breath breaking apart into sharp little gasps that fill the bedroom. She's trying to speak, trying to say something, but it keeps getting swallowed between ragged moans.

"I'm—" she tries, voice cracking, "I—fuck—"

The way she stumbles over it, how she can barely get the words out—the girl who always has a comeback, who never shuts up in class—makes something snap inside you. Your cock throbs, swelling even harder, stretching her more as her walls squeeze around you in desperation. Your grip tightens—on her thighs, her ass, her waist. You need to feel her, need to hold every part of her as she comes undone.

Your hands roam—palming the curve of her back, gripping her tits, feeling the way they bounce with every thrust. Then up, fingers tangling into her blonde hair, tugging her head back against the pillows, making sure she feels all of it, all of you.

She pulls a pillow close, biting into it, eyes squeezed shut, drowning in the way you fuck her. The room is thick with the sound of skin against skin, her breathless whimpers breaking into something higher, needier. The air is heavy, thick with sweat, with the intoxicating scent of her—her Victoria's Secret body spray mixing with the raw, musky heat of sex, the sheets carrying the evidence of it. It's overwhelming, suffocating, consuming, every breath filled with her.

You're barely holding on yourself, tension winding tight in your spine, in your stomach, but seeing her like this—seeing her break beneath you, seeing her fall apart in your hands—that's what pushes you closer to the edge.

You grit your teeth, feel your cock twitch inside her, aching, swollen, so fucking close you can taste it. "I'm close," you manage, voice rough, strained, barely holding on.

Chaewon doesn't answer—not with words. Just a moan, high-pitched and wrecked, a breathless whimper spilling past her swollen lips. She turns her head, eyes hazy, half-lidded, looking at you through the blur of sweat and pleasure. Her gaze drops, trailing down your body, watching the way you're fucking into her, the way you stretch her open, the way you own her—this girl who has everything, who everyone wants to be.

Then her hand moves—sliding between her legs, fingers brushing over her swollen, messy clit. She gasps at the contact, whines as she rubs tight, fast circles, her entire body tensing, back arching into you.

The slick, obscene sounds of it mix with her gasps, her slurred curses, her whimpers breaking into desperate, breathless pleas. "Fuck—fuck, fuck, fuck—"

You're right there. So fucking close. This moment of perfect, terrible clarity where nothing exists outside this room—not school, not your future, not even tomorrow.

Chaewon gets there first. Her entire body seizes up, legs trembling, thighs squeezing tight around your waist as she crashes into her orgasm. Her grip turns bruising, hands clawing at you—your back, your arms, your shoulders—grasping for anything, everything as she spirals.

"Oh my fuck!" she screams, head thrown back, voice breaking into something raw and desperate, loud enough that you're suddenly grateful her parents won't be home for hours.

That's it. That's what fucking wrecks you.

Your body locks up, heat pooling at the base of your spine, surging through you like a live wire, so intense it knocks the breath from your lungs. Your cock twitches violently inside her, pulsing, aching, your entire body seizing up—legs tensing, toes curling, muscles locking in place as the pleasure crashes through you. You bury yourself deep one last time before instinct kicks in, before you yank yourself out, your hands shoving her onto her back.

You stroke yourself fast, frantic, desperate, your abs clenching, hips jerking on instinct, chasing that last pulse of pleasure. The sight of her wrecked beneath you, her skin still flushed, her thighs twitching, sends you over the fucking edge. "Shit—" you groan, voice wrecked, guttural, as your cock throbs violently in your grip. The first thick spurt shoots out, streaking across her stomach, hot and filthy, splashing across the curve of her waist, her navel. The rest follows in messy ropes, dribbling down her skin, pooling between her ribs. It's everywhere—sticky, raw, a fucking mess. Chaewon shudders at the sensation, her breath hitching, her thighs still twitching from the aftershocks of her own release.

She exhales, still trembling, thighs twitching, completely spent. A fucked-out smile tugs lazily at her lips as she drags a slow, shaky breath in, her chest rising, coated in the evidence of what you just did to her.

You sit back, gasping, running a hand through your sweat-damp hair, trying to catch your breath. The room smells like sex and sweat and her perfume—a combination that's going to haunt your dreams for weeks.

Chaewon stirs, reaching down without hesitation. Her fingers trail over her stomach, gathering the mess you left on her, scooping up a streak from her skin and bringing it to her mouth. Her tongue flicks out, tasting it, humming low in her throat. Then she does it again—this time from her chest, then her waist, dragging her fingers through the sticky warmth, licking it up like it's second nature.

"Fuck," you breathe, voice wrecked, hand finding her thigh and squeezing it tight.

She moans softly at the contact, smirking as she stretches out beneath you, shameless. "You fucked the shit out of me," she purrs, voice thick, teasing. "Now you gonna think about it the next time you fuck Eunbi, huh?"

Your jaw tightens. The mention of her—your girlfriend—after everything you just did, after the way Chaewon looks right now, smug and satisfied and so fucking filthy, makes something snap.

Your hand flies to her throat, gripping, pinning her back into the sheets. She gasps, but it's not in protest—it's in pleasure. Her lips part, her breath hitches, eyes darkening as she tilts her chin up, inviting more, daring you.

And then your phone rings.

Not just a vibration this time. A full-blown call.

Loud. Shrill. Eunbi.

A cold weight sinks into your chest, heavy, suffocating. The real world crashing back in like a bucket of ice water.

Post-nut clarity slams into you, cutting through the heat still clinging to your skin. Everything crashes in at once—who you are, what you've done, what this means.

You let go of Chaewon's neck like she burns you, scrambling off of her, off the bed, reaching blindly for your phone. Your hands are still shaky as you grab it, answering as fast as you can, voice rough, breath unsteady.

"Hey."

Eunbi's voice is light, sweet, unaware. "Hey, why weren't you replying? It's class change."

Fuck. You swallow hard, running a hand through your damp hair. Your skin is still hot, sticky, the air thick with the lingering heat and smell of musk.

"Uh—I had to walk home to grab something."

A lie. A weak one. But it makes sense. You live close enough to the school that it's not impossible. You just hope she buys it, hope she doesn't hear how your heart is still hammering against your ribs.

"Oh," Eunbi hums. "I got worried."

As she talks, you don't notice Chaewon moving. Not until she's right there, sliding down the bed, her bare body pressing into your side, her face hovering way too close to your cock.

Your breath hitches. Your grip on the phone tightens.

She's smirking. Watching you. Waiting. The same look she gives when she knows the answer to a question no one else can solve.

"You weren't answering," Eunbi says. "I thought something happened."

"Sorry, babe. Didn't mean to worry you."

And that's when Chaewon makes her move.

She doesn't touch your cock. Not yet. Instead, her mouth goes lower, latching onto your balls, sucking wet and slow, tongue swirling over sensitive skin.

A bolt of heat spikes down your spine. Your muscles go tight, your breath cuts short, your fingers dig into the sheets.

"Shit," you almost say out loud—but bite your tongue last second.

Eunbi's still talking. You don't even register what she's saying. Something about meeting at lunch, something about the chem test next period.

Chaewon's fucking grinning, lips stretched around you, her eyes locked onto yours, waiting for you to slip up, to lose control, to moan or gasp or fucking break. The thrill of it clear in her eyes—the risk, the power she has over you right now.

You shove her back, her shoulders hitting the mattress, but all it does is make her giggle—low and sultry, like she's savoring your panic, like she enjoys watching you squirm. Too loudly. Dangerously loud.

Panic seizes your whole body. Your eyes go wide. You press a finger to your lips, mouthing, "Shhh."

Eunbi pauses on the other end. "You okay?"

You force yourself to act normal. To breathe. You push Chaewon away—physically shove her back. She pouts, but she listens, sitting back on her heels, smug and satisfied, before stretching her arms over her head, languid and unbothered. Then, just as easily, she steps off the bed, stretching like a cat, unbothered, like this was nothing more than a game to her.

"Yeah," you say, somehow steady. "I'm fine."

Through the phone, you hear Eunbi giggling, the sound of footsteps, her friends chattering in the background. She's walking to her next class. Completely unaware. The girlfriend who trusts you, who saves you a seat at lunch, who helps you study for tests you're barely passing.

"Okay," she says. "I'll see you at lunch then, babe. Love you."

Silence lingers. A pause that stretches too long.

You should say it back. You need to. But then, you look up.

Chaewon's standing at her closet, slipping on fresh clothes. Her ass is in clear view, the length of her body stretching as she moves, her legs lean and smooth. Her messy tank top clings to her body, damp with sweat, a streak of dried cum still visible on the fabric.

Your mouth feels dry. Your brain short-circuits, caught between what you should feel and what you do feel.

"I love you too," you manage to say, through everything weighing on you, and the call ends with a soft beep.

Chaewon turns to face you.

And she gives you a look.

Not smug. Not teasing.

Just dirty. Unreadable. Something dark and lingering in her eyes.

She doesn't say a word. Just grabs her shorts, turns, and walks out to the bathroom.

The door shuts.

You sit there, still gripping your phone, staring at the space she left behind. Your pulse won't slow down. Not from the panic. Not from the guilt. Not from the fact that even now, even after all of it—you still want her.

Your skin burns, your body tense, still stuck in it. Still feeling it. What you shouldn't have done. But you did. And the worst part? Some fucked-up part of you knows that if she pulled you back into that bed, you wouldn't stop her.

You should feel worse. You should hate yourself.

But Chaewon's still hot as fuck, and that's the problem.

AN: This was originally going to be a longer fic, but I ended up with a newer Chaewon idea, and she’s my ult bias so i cut this down to just the sex.

Sorry to all the Eunbi fans, dw she’ll get her own

#malereader #kpop smut #chaewon #chaewon x reader #cloudtsmut

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itsgerges · 1 year ago

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