#general chemistry 1 | Explore Tumblr posts and blogs

itsgerges · 4 months ago

Text

Best Regards

The Planets Were Moving In Their Orbits Before The Sun Creation (Revised)

The Sun Creation

The sun is created depending on the planets motions- because- the sun rays is created by the planets motions energies- In details- Planet motion produces energy (1/2 mv^2) and from this energy the sun rays is created- means- the sun is not doing nuclear fusion to produce its rays but the planets motions energies total is used to produce the sun rays– that explains why the sun corona temperature is 5 million Kelvin but the sun surface temperature is 5800 Kelvin- because the energy is not produced from the sun body but the energy comes from out of the sun body (from the planets motions energies total)- This theory is discussed based on 5 hypotheses.

The First Hypothesis

The Sun Rays Is Created By The Gravitational Waves Motions Energies

This Is Extraordinary: Gravity Can Create Light, All on Its Own

https://www.msn.com/en-us/news/technology/this-is-extraordinary-gravity-can-create-light-all-on-its-own/ar-AA19YL5d?ocid=hpmsnHYPERLINK "https://www.msn.com/en-us/news/technology/this-is-extraordinary-gravity-can-create-light-all-on-its-own/ar-AA19YL5d?ocid=hpmsn&cvid=620db4352aa943e2b454919a7b724604&ei=83"&HYPERLINK "https://www.msn.com/en-us/news/technology/this-is-extraordinary-gravity-can-create-light-all-on-its-own/ar-AA19YL5d?ocid=hpmsn&cvid=620db4352aa943e2b454919a7b724604&ei=83"cvid=620db4352aa943e2b454919a7b724604HYPERLINK "https://www.msn.com/en-us/news/technology/this-is-extraordinary-gravity-can-create-light-all-on-its-own/ar-AA19YL5d?ocid=hpmsn&cvid=620db4352aa943e2b454919a7b724604&ei=83"&HYPERLINK "https://www.msn.com/en-us/news/technology/this-is-extraordinary-gravity-can-create-light-all-on-its-own/ar-AA19YL5d?ocid=hpmsn&cvid=620db4352aa943e2b454919a7b724604&ei=83"ei=83

This new article tells the gravitational waves can move by speed of light and can produce a light beam-

I suppose -the sun rays is produced based on this method by the gravitational waves motions and not by the sun nuclear fusion- also – I claim No star rays is produced by the nuclear fusion process but all rays are created by the gravitational waves motions energies as the article states.

The Second Hypothesis

The gravitational waves are produced by the planets motions energies- and not by the gravitational field- moreover- The sun is Not producing any gravitational field-

The Third Hypothesis

The gravitational waves are reflected in the solar system- the wave reflection causes changes for the waves properties and data- the major change is that- the reflection causes to square the wave velocity- means- the gravitational wave moves by velocity (V), if this wave is reflected, it would move by velocity (V^2) after the reflection-

The gravitational waves are reflected three times in the solar system- two times in the outer planets and one time only in the inner planets-

The Fourth Hypothesis

The Planets Motions Use Different Rates Of Time

The rate of time use is useful because it enables to accumulate the planets motions energies during a period of time- understandable- Planet motion energy is small energy and the sun rays is massive energy and that necessitates to accumulate the planets motions energies total during a period of time to store motion energy sufficient to be used for the sun rays creation- Shortly- if the planets motions don't use rates of time, no massive motion energy can be provided and for that NO enough energy will be found to produce the sun rays-means- No light beam can be created

The rate of time depends on the velocities rate

Example (one hour of Mercury clock = 1.6 hours of the Earth clock) because Mercury velocity =1.6 the Earth velocity– the hypothesis is explained and proved in details

The Fifth Hypothesis

Neptune Motion Causes Negative Effects On The Sun Rays Production Process are

Neptune motion caused the gravitational waves to be reflected two times in the outer planets where one reflection is enough for the required process- the wave reflection is repeated by Neptune negative effect on the solar system motion

Neptune caused to decrease the gravitational wave speed by one percent- where the gravitational wave moves by speed of light Neptune caused to decrease this speed by 1% creating a speed = (99% of the speed of light=297000 km/s) and by this speed (0.99C) the relativistic effects are created in the solar system

NOTICE

The solar system is one machine performs one Job- and this Job is The Sun Rays Production - All planets motions are used as parts to perform this one Job-

The Sun Rays Production Is Done By Two Basic Tasks

(1st task) The Provision Of The Sufficient Energy For The Sun Rays Production- and the sufficient energy is prepared by the motions of the five planets (Saturn- Jupiter- Venus- The Earth- The Moon – and Mars) because these five planets motions are used to create the general rate of time based on which The Sun Rays Are Created.

(discussed in details in the 3rd hypothesis)

(2nd task) The mechanism by which the light beam is created- and this mechanism is the relative motion- the gravitational waves move relative to the sun point of space- by this relative motion the sun rays are created- means- the required energy is prepared and provided by the aforementioned five planets- and when the sufficient energy be provided this energy is sent to the planets which create the mechanism and the mechanism uses the sufficient energy to produce The Sun Rays

The mechanism depends on the motions of 3 planets (Mercury- Venus and the moon)

Specially Venus, because Venus reflects the wave toward Mars and defines its trajectory angle to create the relative motion between the wave and the sun point of space- the relative motion is discussed in details in the explanation of the (first and second hypotheses)

The Explanation Of The First And Second Hypotheses

Let's remember The 1st Hypothesis

This Is Extraordinary: Gravity Can Create Light, All on Its Own

The article tells the gravitational waves can move by speed of light and can produce a light beam – I suppose

(The Sun Rays Is Created By The Gravitational Waves Motions Energies And Not By The Sun Nuclear Fusion -Also All Stars Rays Are Created By This Method And No Rays Is Created By The Nuclear Fusion Process)

And –The 2nd Hypothesis

The gravitational waves are produced by the planets motions energies- and not by the gravitational field- moreover- The sun is Not producing any gravitational field-

The two hypotheses explain how the sun rays creation depends on the planets motions because The Sun Rays Are Produced By The Gravitational Waves Motions Energies as the article states AND The Gravitational Waves Are Produced By The Planets Motions Energies-

The two hypotheses are discussed together in 4 Points

First Point (The Gravitational Waves Source)

The gravitational waves are produced by the planets motions energies- and not by the gravitational field- moreover- The sun is Not producing any gravitational field-

I provide 2 major proves for this hypothesis which are- (1st proof/ Planet Motion Energy Analysis) and (2nd proof /The Sun Gravitational Field Refutation)

1st Proof / Planet Motion Energy Analysis

Planet motion produces energy (1/2 mv^2), Let's ask, where's Planet motion energy? the planet can NOT store its motion energy inside its body because it would raise its temperature and No planet temperature is raised by its motion- logically- the planet motion energy is stored in the space in waves form- means- Planet motion energy creates waves in the space- the planet motion in the space is similar to a fish swimming in the sea- as the fish swimming creates waves in the water the planet motion energy creates waves in the space- let's see this picture clearly- the fish swims because it hits the water by its body and that creates waves in the water- we conclude, the water waves move by a velocity equal the fish velocity because of the reaction force- similar to that- Planet moves in the space and its motion energy creates waves in the space and these waves move by velocity equal the planet velocity- for example- Mercury (47.4 km/s) moves and its motion energy creates waves in the space and these waves move by equal velocity (47.4 km/s)- based on this idea- All planets move and their motions energies create waves in the space where each wave moves by velocity equal its planet velocity –

AND

I suppose these waves are the gravitational waves

AND

The planets revolve around the sun in the same one direction and for that their motions energies create waves in the space and these waves move perpendicular on the revolution direction (Toward Pluto orbit)

AND

In Pluto orbit these waves are unified together into one unified wave- this wave moves by a velocity = 205.8 km/s why?

The 9 planets velocities total=176 km/s but I add the Earth moon velocity (29.8 km/s) that makes the total to be 205.8 km/s – I add the moon velocity because the energy is stored finally in the moon orbit-

Note- the moon velocity is 27.8 km/s BUT the Earth and the moon revolve around the sun together for that the moon velocity should be considered equal the earth velocity relative to (the sun) –

The 1st Proof Conclusion

The Planet Motion Energy Creates Waves In The Space

Means - The Space Must Have Moving Waves

Now -the scientists had discovered waves in the space- And- they considered these waves are produced by The Sun Gravitational Field – BUT Why?

The planet motion energy analysis proves the waves must be produced by the planets motions energies- Now let's refute the sun gravitational field theory- the refutation gives support for the conclusion that – the gravitational waves are produced by the planets motions energies and NOT by the gravitational field because there's NO Gravitational field.

2nd Proof / The Refutation Of The Sun Gravitational Field

The Sun Doesn't Produce A Gravitational Field Nor Has Massive Gravity – let's prove that in following

(1)

The sun rotation period is (25.4 days– at equator) and (34.4 days – at pole) that shows the sun has no massive gravity nor even ordinary gravity equal any planet gravity otherwise the sun would rotate around its axis in one period of time-

(2)

No Planet Moves By The Sun Gravity – Newton is wrong- because- the planet moves by the force caused its creation- means- the planet creation and motion is done by one force only- because- if two forces have effects on the same one planet this planet would be broken- now- suppose the planet is created (by any force) and the sun gravity attracted this planet and forced it to revolve around the sun by the sun mass massive gravity (as Newton imagined) that would force the planet to move against its inner creation and will cause this planet to be broken- this is similar to a human is forced to walk on his hands in place of his legs and when this human refuses to do that (they told him we can force you by our power) for that this human walk on his hands forcedly and later this human is dead by this motion- shortly- the planet is NOT broken by its motion because the planet creation force is the force causes this planet motion- it's one force caused the planet creation and motion-

Newton mistake is that he didn't know how the planet is created and by that he didn't realize that planet creation and motion are done together by the same one source- simply- the sun didn't cause to create any planet and for that the sun doesn't cause any planet to move- this analysis shows logical base but left us with puzzles to know (by what rule the planet moves?) and (Why is the sun found in the solar system if it doesn't cause the planets motions?) these questions are answered in the paper abstract and discussions.

(3)

The mass gravity force can NOT cause any motion- again Newton is wrong- the mass gravity creates a bond between two masses- (the Earth and the moon are bond by the mass gravity)- by that they are similar to a lorry and its trailer – if the lorry moves the trailer will move with the lorry- but the mass gravity can NOT cause any motion- why? suppose the moon moves by the Erath gravity force- the moon moves and produces energy (1/2mv^2) and we have to ask from what source this energy will be provided?- from the mass itself- means if the Earth causes the moon to move the Earth and the moon masses should be decreased by the motion energy- this is a wrong definition for the mass gravity- the mass gravity creates a bond between two masses (The Earth and the moon) if some outer force causes the Earth to move the moon will move with the Earth and in this case the outer force will provide the motion energy for the Earth and the moon-

(4)

The planets order contradicts Newton gravitation equation- where- the gravitation equation tells (greater mass necessitates shorter distance)- clearly- Jupiter the greatest mass is not the most near planet to the sun- means- the planets order contradicts the equation- when we asked the physicist told us this problem is done by (the initial conditions)- all these are nonsense clearly- planet orbital distance does NOT depend on the sun mass nor on the planet mass- planet orbital distance depends on the neighbor planet orbital distance – my equation proves this fact- let's see it

Planet orbital distance equation (my 1st equation)

d^2= 4do (d-do) where d= planet orbital distance and do= its neighbor distance

Example- Venus orbital distance (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

50.3million km=The Distance Between Venus And Mercury Venus Depends On Mercury

All planets orbital distances are defined based on their previous neighbor planets orbital distances- the equation is correct perfectly and all planets orbital distances are defined by it- my paper tests and discusses this equation

Shortly- planet mass has no any effect on this planet orbital distance definition.

Notice

Planet orbital distance definition depends on its neighbor orbital distance this fact is proved by many other different methods my equation is one method only of them, all these methods don't use any planet mass- all planets orbits are defined based on their neighbor orbits- (Please note- Newton gravitation equation is wrong- I don't critic it by many critics to short the discussion- but- the fact is that- the light beam created all planets orbits before any planet creation- the light created each planet orbit depends on its neighbor orbit- I prove this fact in the paper discussion- logically this fact kills the gravitation equation because the orbit is created before the planet creation)

Notice -Newton is so far from the truth- let's give one more example- Newton told us planet moves by the sun mass gravity- the fact is that- the Sun itself is created by the planets motions energies- that's why Newton ideas are not interesting for discussion because his ideas are imaginary have no part of truth-

(5)

Also-Newton told-planet motion depends on its mass- means-planet velocity depends on its mass- this also is imaginary idea- I define planet velocity in the explanation of the 3rd hypothesis- planet velocity is defined by many rules all of them don't use any planet mass- at all Planet mass has no rule in this planet velocity definition.

The 2nd Proof Conclusion

The Gravitational Waves Are Produced By The Planets Motions Energies And Not By The Sun Gravitational Field- Also-There's No Gravitational Field At All

Second Point (The Gravitational Waves Nature Analysis)

Let's ask

(1)

If The Gravitational Waves Are Produced By The Planets Motions Energies- How Can The Gravitational Waves Move By Speed Of Light While The Planets Move By Low Velocities? Or Generally– regardless the gravitational waves source- how can the gravitational waves move by speed of light? From where the energy is provided to enable the waves to move by the speed of light?

(2)

Can the gravitational waves be reflected in the solar system? what's the result of this reflection on the waves properties, features and nature?

(3)

Can the gravitational waves energy be increased? Means can one gravitational wave move by low velocity and this wave motion is accelerated to move by high velocity motion? again from what source the energy is provided and how the acceleration is done?

(4)

If the gravitational waves are produced by the same gravitational field (The physics book states "the gravitational waves are produced by the sun gravitational field") does that mean all gravitational waves move by equal velocities? can some waves move faster than the others? why and how?

(5)

If the planets data are reflected on each other – can we discover the geometrical reason behind this features? Planet velocity is example where the velocities are defined by the rule (v1v2= constant) this rule tells the velocities are reflected on one another- why the velocities are reflected on each other? what's the geometrical reason behind? suppose the gravitational waves are reflected in the solar system, why this cause the planets data to be reflected on each other?

(6)

If The Gravitational Waves Move By Speed Of Light- How Can These Waves Produce A Light Beam? Because the light beam production needs the value (C^2= squared speed of light) but the waves moves by speed of light only (C=300000 km/s) how the value (C^2) can be produced by the waves motions?

(7)

If the gravitational waves produce a light beam, does that mean the waves use electric field to produce this light beam? Is there another method to produce a light beam doesn't use electric field or charges?

(8)

If the gravitational waves are reflected in the solar system can we discover that? can we prove that? and can we know in what planet orbit the reflection is done and if the waves are reflected many times?

The Gravitational Waves Properties, Features and nature

Here I compare between the two theories about the gravitational waves source and their effects on the waves properties-

1st Theory (The Physics Book Theory)

The physics book states, the gravitational waves are produced by the sun gravitational field- this theory tells little about the gravitational waves properties and nature because the mass gravity concept is puzzled and not understood for that the waves properties and features are puzzled also- let's test this idea- In The Sun gravitational field theory no one knows how the mass gravity force works and if the gravity needs time to work- or if the gravity creates a geometrical design to practice the effect of one mass on the other- the mechanism is not clear and for that the gravitational waves are not clear- for example – no one knows why the gravitational waves can move by speed of light or what waves move by this speed and in what planet orbit or if the wave motion velocity is accelerated gradually from low velocity to high velocity– we shortly know nothing about these gravitational waves- let's ask more questions- are these waves reflected and what's the result of this reflection on the waves properties and nature- where do these waves go? And what's the useful result of these waves energy? can these waves energy be used at all? are there just moving energy in space without an useful goal or result? And

The new article tells the gravitational waves move by speed of light can produce a light beam? How these waves can produce a light beam by their motion?

DEEP ANALYSIS

I wish the respectful reader notices the major change in vision by this article-because- the physics book states the sun rays is produced by the sun nuclear fusion- here- the source of energy is the sun mass and the used method is the sun nuclear fusion- and the light beam is produced

Let's put the new article here again

This Is Extraordinary: Gravity Can Create Light, All on Its Own

The article tells, the gravitational waves can move by speed of light and can produce a light beam-

the light beam is created by the gravitational waves motions- the article tells- the light beam can be produced by the Motion Energy –

The article tells (The High Velocity Motion Can Produce A Light Beam)- here the article removed simply The Sun Nuclear Fusion Machine- the whole machine be useless because the light beam can be produced by (the motion energy)- I wish the respectful reader sees the miracle and wonder behind-

There are 2 major changes

(1st Change) The source of energy

The source of energy is the motion energy– No longer the sun mass be used as the sun rays source of energy- BUT – the motion energy is used as the source of energy – here- the fatal error of the sun nuclear fusion theory is seen clearly – because- the solar system is so rich in motion energy- the moving planets since thousands of years provide massive motion energy stored in the space- and by that- the solar system is very rich system in the motion energy- and we should ask (why do we need an outer source of energy?) why the solar system doesn't use its massive motion energy to produce the light beam? Also if the massive motion energy is not used- where's this massive energy? because it can cause continuous risk for the soalr system stability if no way to use this stored massive energy

The sun nuclear fusion theory is completely wrong because it doesn't see the massive motion energy stored in the solar system

(2nd Change) the light beam production machine

The gravitational waves motions can produce the light beam- this is stated by the article but how? by what method the gravitational waves can produce the light beam? The article doesn't explain how the gravitational waves can produce a light beam? But I put an explanation for this method in my theory discussion

2nd Theory (My Theory)

I suppose the gravitational waves are produced by the planets motions energies- let's remember my theory because we will use it in the waves properties discussion

I asked –where any moving body produce energy by its motion =(1/2 mv^2),

where's Planet motion energy? The planet can NOT store its motion energy inside its body because it would raise its temperature and No planet temperature is raised by its motion- logically- the planet motion energy is stored in the space in waves form- means- Planet motion energy creates waves in the space- the planet motion in the space is similar to a fish swimming in the sea- as fish swimming creates waves in the water planet motion energy creates waves in the space- means planet moves and creates waves in space and these waves move by velocity equal this planet velocity

by that- for example- Mercury (47.4 km/s) moves in the space and creates waves move by equal velocity (47.4 km/s)- based on this idea- All planets move and their motions create waves move by these planets velocities –

AND

I suppose these waves are the gravitational waves

AND

In Pluto orbit these waves are unified together into one unified wave- this wave moves by a velocity = 205.8 km/s = the planets velocities total

I explained this theory before in more details- now – let's discover the gravitational waves properties and features in details- let's put this analysis in the next point (third point) because we need to analyze the wave reflection process to discover the waves properties and features

Third Point (The Gravitational Waves Reflection)

Let's ask

Question No.(1)

If the gravitational waves move by velocity 205.8 km/s, how can they move by speed of light? How the velocity 205.8 km/s can be accelerated to be 300000 km/s (speed of light) and where this acceleration is done?

Another question can help greatly this discussion

Question No.(2)

If The Gravitational Waves Move By Speed Of Light (C=300000 Km/S)- How Can These Waves Produce A Light Beam?

Let's think how to answer this question- these gravitational waves move by speed of light (C=300000 km/s) but the light beam production needs the value (C^2= squared speed of light)- means- the wave velocity is squared- and how can the wave velocity to be squared?

This feature I have discovered in the solar system- the waves are reflected and the reflection causes to square the velocities- means- the gravitational waves are reflected in the solar system- the gravitational waves before the reflection moved by speed of light (C=300000 km/s) and the reflection causes the velocity to be squared- by that- after the reflection the gravitational waves speed is squared and changed from the speed of light (C=300000 km/s) to be (C^2= squared speed of light) and the light beam is created from this value (C^2)

Means- the waves reflection is the method by which the speed of light (C=300000 km/s) is changed into (C^2)- that means- without the waves reflection NO light beam can be created.

Notice– the waves reflection is proved strongly in the solar system because it causes to reflect the planets data- means- huge amount of planets data proves the waves reflection–we may remember one example – planet velocity is defined by the rule (v1v2=constant) this rule proves the planets velocities are reflected on each other

The paper provides hundreds of similar data proves the waves reflection

AND

The waves reflection causes to square the velocity- this feature is repeated in the solar system frequently – because- the waves are reflected three times in the solar system for that the velocity squaring is a feature repeated with each reflection and by that the planets data provides a strong proof for it-

Shortly- The waves reflection causes to square the velocities- now- let's use this feature to know how the unified wave its velocity (205.8 km/s) can move by speed of light (C=300000 km/s)- (Please note this unified wave is the gravitational wave)

The Gravitational Waves Move By Speed Of Light

The unified wave (the gravitational wave) moves by 205.8 km/s and it's reflected, the waves reflection causes to square the velocities

(205.8 km/s)^2 = 42683 km/s

Means the unified wave after the reflection moves by a velocity 42683 km/s

BUT

If a particle moves by speed (=0.99 C=297000 km/s), this high velocity motion causes to create relativistic effects specially Lorentz length contraction effect with rate 7.1

Means- the distances should be contracted by the rate 7.1

BUT

The waves reflection causes to reflect the geometrical effects and by that the rate (7.1) will cause to increase the length in place of the length contraction- means- the distances will be increased with (7.1) as a result for Lorentz length contraction effect

The velocity 42683 km/s will be 42683 x 7.1 = 300000 km/s (Speed Of Light)

That explains how the gravitational waves move by (205.8 k/s) can move by speed of light (C=300000 km/s)

NOTICE No. (1)

Please note the important observation

Without 7.1 the velocity will be only 42683 km/s (even after the waves reflection) and NOT the speed of light

That tells- the light beam production process depends on the previous light beam production process- means- a motion by (99%) of speed of light should be found before the wave reflection occurrence and without this motion with (0.99 C) the gravitational waves can't move by speed of light because we need a source for Lorentz length contraction effect with rate (7.1)

That tells the light production process is done in chain process, the new light beam production depends on the old light beam and if this dependency is removed the gravitational waves can NOT move by the speed of light and No light beam can be created in this case

NOTICE No. (2)

We need to pay more attention for the importance of the motion by the speed of light- because the technique of the machine depends on the waves reflection- means- the waves can increase its velocity only by the reflection process – now the reflection causes to square the velocities- this is very important news why??

Because - If the waves move by speed of light (C=300000 km/s), the waves reflection will produce the value (C^2= squared speed of light) and from this value the light beam can be produced

Now – suppose the wave velocity is less than speed of light- suppose the wave moves by speed = (90%) of the speed of light= (270000 km/s) - the waves reflection will square this speed that will produce (0.81 C^2) which is NOT (C^2= squared speed of light) and as a result No Light Beam Can Be Produced.

NOTICE No. (3)

The unified wave (gravitational wave) do NOT produce the speed (0.99C = 297000 km/s) this speed can NOT be produced by the unified wave motion– because - the unified wave velocity is 205.8 km/s and by the first waves reflection this velocity will be squared and produce speed of light (205.8^2 x 7.1 = 300000 km/s) as I have explained- (means- the gravitational waves velocity is not increased gradually- the wave acceleration system doesn't use gradual increasing for the wave velocity- for that the speed 0.99C is never mentioned by the wave acceleration system)

The speed (0.99C = 297000 km/s) is NOT created by the solar system motion design at all- the solar system design produces the speed of light (C=300000 km/s) perfectly- BUT- this speed (0.99C) is created by Neptune negative effect on the solar system- because Neptune created interaction with Saturn and Neptune decreased Saturn rotation period from 10.84 hours to 10.7 hours and that caused to delay the unified wave with (1%) and by that the total speed is decreased (1%) and that caused the speed of light (C=300000 km/s) is decreased by one percent (1%) and that produces the speed (0.99C = 297000 km/s)- and this speed causes to create the relativistic effects in the solar system – the interaction between Neptune and Saturn is explained later

Here I want to say

The new light beam production depends on the old light beam production- the old light beam is created based on the speed of light (C=300000 km/s) and Neptune creates its negative effect on this speed with decreasing the speed with (1%) leaving speed = (0.99C = 297000 km/s) which creates the relativistic effects in the solar system and these relativistic effects include Lorentz length contraction effect with rate (7.1)-

I want to say- we have – two different speeds- one old speed equal (0.99C=297000 km/s) and the new speed equal (C=300000 km/s), the new speed is created depending on the old one because the unified wave velocity 205.8 km/s is squared and by the rate 7.1 the produced velocity is the speed of light 300000 km/s.

NOTICE No. (4)

The rate (7.1) is used frequently in the planets data and we know this rate is found by Lorentz length contraction effect- but the solar system uses also the rate (7.1) in another form as following (7.1/100)+1= 1.0725 – please note- the rate (1.0725) is the most important rate in the solar system because 40% of all planets data are effected by this rate- let's provide an example

(28.3/26.7)= (26.7/25.2)= (25.2/23.4)= (122.5/113.4)=(97.8/91.3) =1.0725

These are the axial tilts of (Neptune, Saturn, Mars, Earth, Pluto and Uranus)

the data is one example of similar thousands shows the great effect of the rate (1.0725)

Now let's ask,

How can the gravitational waves move by speed of light? What are the details of the acceleration process? Where is this acceleration done, in what planet orbit? Can we know the gravitational waves velocity in each planet orbit?

The Reflection Of The Gravitational Waves

(The Energy Distribution And The Waves Acceleration Process)

The gravitational waves are reflected three times in the solar system which are

The first reflection from Pluto to Saturn

The Second reflection from Uranus to Jupiter

The third reflection from Venus to Mars

The waves reflection causes changes in the waves properties and data– but- the major change is the squaring of the waves velocity- because- this is the method causes to accumulate the energy and the energy accumulation is the method by which the sun rays are created (understandable planet motion energy is small and the sun rays energy is massive one- means only by the planets motions energies accumulation and storing can the motion energy be sufficient to provide the required massive energy for the sun rays production)

Let's see the effect of these reflections on the gravitational waves velocity

(a)

The unified wave velocity is 205.8 km/s and this wave is found in Pluto orbit and Pluto reflected this wave toward the inner planets-

In the outer planets there are 2 reflections (1st reflection from Pluto to Saturn) and (2nd reflection from Uranus to Jupiter)- we should consider these two reflections as one reflection only- (from Pluto to Saturn) – because – the two reflections work as one reflection only- this is happened by Neptune negative effect which will be discussed later- shortly- if Neptune is not found in the solar system- the outer planets would have One reflection only- the reflection process is repeated resulting the negative effect of Neptune on the solar system motion- shortly- here we deal with one reflection only from Pluto to Saturn- let's see the reflection effect on the waves velocity

In Pluto orbit the unified wave velocity is (205.8 km/s) –

The waves reflection causes to square the velocity as following

(205.8 km/s)^2 = 42683 km/s

Means the unified wave after the reflection moves by a velocity 42683 km/s - BUT

We know the solar system has relativistic effects specially Lorentz length contraction effect with rate the (7.1) while the reflection of energy causes to reflect the geometrical effects and by that Lorentz length contraction effect will NOT contract the lengths but will increase the length with (7.1) – as a result

The velocity (205.8)^2 will be increased as following (205.8)^2 x 7.1 = 300000 km/s

Means - One reflection only for the unified waves (205.8 km/s) causes the waves velocity to be accelerated from (205.8 km/s) to speed of light (C=300000 km/s)

This is done in Saturn orbit- Means-

The waves velocity is (205.8 km/s) in the orbits of (Pluto- Neptune and Uranus) – but this velocity is accelerated in Saturn orbit to be equal speed of light (C=300000 km/s)

The conclusion

The gravitational waves move by (205.8 km/s) in the orbits of (Pluto, Neptune and Uranus) and

The gravitational waves move by speed of light (C=300000 km/s) in the orbits of Saturn- Jupiter – Venus (the energy is sent from Jupiter to Venus directly)

Now we know the gravitational waves velocity in each orbit- that explains why the relativistic effects on data are seen mostly on Saturn and Jupiter data- because the wave velocity is accelerated in Saturn orbit to move by speed of light and the wave moves by speed of light in all orbits from Saturn to the sun

(b)

The last reflection is done from Venus to Mars

The process is so simple one because the gravitational waves reached to Venus move by speed of light (C=300000 km/s) and Venus will only reflect these waves toward Mars and the reflection will square the velocity and by that the speed of light will be squared and produce (C^2=squared speed of light) – and from this value (C^2) light beam is created-

Finally, the energy is stored in the Earth moon orbit between Venus and Mars where from this energy the sun rays are created-

We see Venus role is very simple one in the process BUT

Venus reflects the waves toward Mars and defines the wave motion trajectory and its angle- means- Venus defines accurately the trajectory through which the energy will be moving- this is the most important job in the solar system design- we will explain its importance with the sun rays creation discussion

NOTICE

The respectful reader sees clearly the process needs only two reflections and not three because

The wave velocity (205.8km/s) is squared by the first reflection and created the speed of light– means- By the first reflection the wave moved by (205.8 km/s) its motion will be accelerated to move by the speed of light (C=300000 km/s)

And the second reflection will square the speed of light to produce the value (C^2=squared speed of light) by which the light beam will be produced – means – no necessity for three reflections- light creation process needs only two reflections but the problem is Neptune negative effect on the process which forces the planets to repeat the reflection to repair Neptune negative effect on the energy motion (later we should discuss Neptune negative effect on the solar system)

Now we see how the sun rays are created and also we know the gravitational waves velocity in each orbit- Can We Discover The Effects Of The Gravitational Waves Motion On Each Orbit Data? The question is important because the energy is moving from a planet to another and that must have effect on each planet data- this is similar to a river passes through cities- each city life depends on this river effect on it for example some cities will use the river for agriculture- others for fishing other for tourism or transportation- each city is effected by the river according to its sources

Let's see the gravitational waves motion effect on the planets orbits design and data

(c)

First let's see the planets distribution

The three outer planets (Pluto- Neptune- Uranus) have great orbits- why?

Because the gravitational waves move by velocity 205.8 km/s in these orbits and the sun rays needs massive energy where the planet motion energy is so small for that the planets store their motions energies in these great orbits- the three orbits are filled with waves move by (205.8 km/s)- massive and huge amount of energy is stored in these great orbits in waves moves by (205.8 km/s)

And

The waves velocity is accelerated in Saturn orbit

The waves velocity was (205.8 km/s) and in Saturn orbit these waves velocity is accelerated to be equal the speed of light (C=300000 km/s) means each (1461) waves move by (205.8 km/s) will produce one wave moves by speed of light- that shows- the great areas are not required because the energy is used in the wave acceleration for that reason the planets orbits from Saturn to the sun are small orbits-no great areas are required- the energy is used for the wave acceleration -And

When the massive energy reached to Venus- it doesn't destroy the small inner planets and their orbits because the energy is used immediately to produce the sun rays means no need for storing the energy and for that no places for the energy storing instead the energy is used immediately- I try to show that- the planets distribution depends on the gravitational waves velocity in different orbits and by that the planets create their orbits in harmony with the moving energy

(d)

Second let's see the planets masses distribution

The outer planets have great masses but the inner planets have very small masses- why? because the difference in masses enable to accelerate the wave velocity in Saturn orbit-this idea is explained clearly in (Mass definition) in my paper definitions

The mass is used as a rate of time and the rates between the great and small masses aim to create the required rates of time and by these rates of time the wave velocity is accelerated- let's explain that in following

(i)

The wave acceleration details

The unified wave velocity is (205.8 km/s) and all planets see this wave velocity as (205.8 km/s)-

The difference is done by the sun because

(One Second Of The Sun Clock = 1461 Seconds Of The Wave Clock)

Based on that

The wave (205.8 km/s) moves in 1461 seconds a distance =300000 km- BUT

The sun doesn't see this period (1461s) instead the sun clock sees (One Second)

As a result

The sun sees a passed distance (300000 km) in a period (one second) only

That creates the different velocity = 300000 km/s (= speed of light) between the sun motion and the unified wave motion- means-

The unified wave moves relative to the sun point by speed of light (C=300000 km/s)

BUT- the unified wave moves relative to any planet by the velocity (205.8 km/s)

The sun clock causes this velocity (205.8 km/s) to be equal the speed of light (C=300000 km/s) that's why the light beam is created relative to the sun and near to it and even if the energy is sufficient the light can never be created far from the sun because the sun clock creates the required rate of time-

(ii)

The Planets Masses Distribution Effect On The Rate Of Time

Jupiter mass = the Earth moon mass x 26000 BUT

(1461)^2= 2134521 = 26000 x 82

41 degrees = The Planets Orbital Inclinations Total -Let's explain this data

The wave (205.8 km/s) moves by speed of light (C=300000 km/s) relative to the sun motion based on the rate of time (1=1461) means (one second of the sun clock= 1461 seconds of the wave clock)

But the production of light beam doesn't use the speed of light (C=300000 km/s) But uses the square value (C^2=squared speed of light) –

Now- the speed of light motion depends on the rate (1=1461)

Logically- the squared speed of light depends on the squared rate (1 =1461^2)

The value 1461^2= 2134521 is created as a rate between the planets masses- where Jupiter mass equal 26000 the Earth moon mass and by the planets orbital inclinations help the rate (1= (1461)^2) is created

I try to explain why the outer planets have great masses in comparison with the small planets masses- the masses rates are used as rates of time to enable the wave acceleration and by that the wave can move by speed of light and then can produce a light beam.

Notice the rate of time creation and effect is discussed in details in the Explanation of the fourth hypothesis

Fourth Point (The Relative Motion Geometrical Design)

please remember-

The physics book tells the sun rays is created by the sun nuclear fusion- by that- the source of energy is the sun mass and the light beam production method is the nuclear fusion process-

My theory tells- the sun rays are created from the gravitational waves motions energies and the gravitational waves are produced by the planets motions energies- by that– the source of energy is the planets motions energies and the light beam production method is the relative motion between the gravitational waves and The Sun Point Of Space

Based on that, the relative motion is the mechanism by which the sun rays are produced - means- the sun rays is created by A Relative Motion- for that we analyze this relative motion deeply in the following items

The Unified Wave Motion Trajectory

The Sun Point Geometrical Design

The Relative Motion Analysis

The Relative Motion General Description

Planet Day Period Role

Venus role in the Sun Rays Creation

(i) The Unified Wave Motion Trajectory

Let's remember the motion trajectory of the unified wave (the gravitational wave)

Planet motion energy creates waves in the space and these waves move by its planet velocity- for example- Venus (35 km/s) moves in the space and its motion energy creates waves in the space and these waves move by (35 km/s)

AND

The Planets revolve around the sun in the same direction for that the planets motions energies waves move perpendicular on the revolution direction toward Pluto orbit- means- all waves move toward Pluto orbit

AND

In Pluto orbit the waves are unified together into one unified wave moves by 205.8 km/s = the planets velocities total + the Earth moon velocity.

Now

The planets motions energies total is stored in Pluto orbit in waves move by velocity 205.8 (I proved these are the gravitational waves)

AND

The energy will be sent to Venus orbit – means- the energy in Pluto orbit is reflected and sent to Venus orbit-

AND

The energy reached to Saturn before to reach to Venus- in Saturn the unified wave motion is accelerated- the wave reached Saturn moves by (205.8 km/s) and the wave left Saturn moves by speed of light (C=300000 km/s)- the wave is sent Now from Saturn to Venus moving by speed of light

(Notice we avoid the other details of the energy sending and reflection process )

The energy reached Venus in waves move by speed of light

NOW-

Venus will reflect this energy toward Mars- and the energy will be stored in the Earth moon orbit between Venus and Mars- the energy is stored in waves move by speed of light- and the reflection of the energy from Venus to Mars causes to square the wave velocity- and the wave velocity was = speed of light (C= 300000 km/s) before the reflection and after the reflection the wave velocity will be squared and produced the value (C^2= squared speed of light) by which the sun rays is created- this energy is stored in the Earth moon orbit

Notice the unified wave in the moon orbit moves by low velocity (relative to all planets) and the speed of light (C=300000 km/s) and its square (C^2) will be produced only based on the sun clock (the sun rate of time) that means the energy is stored in the moon orbit as moving waves and NO light is produced here - BUT

The waves energy are ascending toward the sun perpendicular on the moon orbit, till this energy reaches to the sun corona- and- in the sun corona the waves energy (motion energy) will be changed into light beam because of the sun rate of time – by that the energy is changed into light beam in the sun corona- means- the energy out of the sun is greater hundreds times than the energy inside the sun that's why the sun corona temperature is 5 million Kelvin but the sun surface is 5800 Kelvin only

Notice -that explains why the total lunar eclipse umbra= 1.392 million km= the sun diameter because the sun rays is created from this energy stored in the moon orbit

(ii) The Sun Point Geometrical Design

Let's ask– Can We See The Mechanism By Which The Sun Rays Is Created?

What's this mechanism? And how does it work?

The mechanism is (The Relative Motion)

A motion is done by 2 players (A and B) – the car (A) moves relative to the car (B)

In our relative motion there are 2 players–(The Sun Point Of Space) and (The Unified Wave) - Let's define each player properties

The Unified Wave (The Gravitational Wave)

This unified wave contains all planets motions energies total for that the unified wave moves by (205.8 km/s) = the planets velocities total

And these waves are reflected three times in the solar system which caused its velocity to be equal (C^2= squared speed of light) based on the sun clock- means- while all planets see this unified wave moves by velocity (205.8 km/s), the sun sees this unified waves move by (C^2= squared speed of light)- because this velocity is created as different velocity between the unified wave motion and the motion of the sun point of space.

The Sun Point Geometrical Design

We should suppose the space is NOT static but in motion and the gravitational waves prove that the space is in motion- by that – No stationary point is found in the solar system space

The Sun Point Of Space is a stationary point- but- this point is created by special procedures which are

(1st Procedure) The planets revolve around the sun and the revolution created two velocities on both sides of the revolution- the two velocities are equal in value and opposite in direction and by that the total be Zero– means- the revolution design creates A Stationary Point in the revolution center- as a result the sun point of space is created depending on the planets revolution around the sun.

Let's explain that more clear

Before the sun creation- the planets were found and they were revolving around one point of space (any point of space- the chosen point is similar to any point in space) the planets revolve around this chosen point of space and the revolution causes this point to be stationary point- let's see this picture clearly- the planets revolve around a point in space and this point becomes stationary point as a result for the planets revolution around it- while the space is in motion and all space points are moving this chosen point becomes stationary point as a result for the planets revolution around it - this point is similar to a vortex (or whirlpool) on the sea page- the vortex doesn't move with the sea waves but rotates around its axis and by that we can distinguish the vortex (whirlpool) from the sea waves-

Now the sun point of space becomes stationary point moves by Zero velocity (NO motion) but the fact is that the sun point of space moves by (1 km/s= Zero approximately) means the point is stationary (approximately)

(2nd Procedure) the previous explanation is correct but not complete- let's explain the full facts in following- Before the planets creation the solar system was one energy moves by speed of light (C=300000 km/s) – no planet is created yet- there's only one wave moves by speed of light-the solar system wanted to create a stationary point and for that- the wave (300000 km/s) revolved around a point in space- and the revolution creates two velocities on both sides, the velocities are equal in value and opposite in direction- the total is Zero- by that a stationary point is created in the revolution center- BUT- the wave moves by speed of light and this is great speed and the creation of stationary point its velocity is (1 km/s = Zero approximately) is a complex process- for that- the wave created small waves move by low velocities- why? because the low velocities will be used as steps to decrease the wave motion speed (the speed of light C=300000 km/s) to be stationary motion (1 km/s = Zero approximately)- these small waves are the solar planets- the wave created the planets to use their low velocities to decrease the wave motion velocity from (speed of light) to be Zero approximately (1 km/s)

That explains the equation- (205.8)^2 x 7.1=300000 – this equation is very interesting because the rate 7.1 is created by Lorentz length contraction effect for speed (0.99C = 297000 km/s) means the rate 7.1 is found by geometrical rule and doesn't depend on any planet velocity or motion-by that-whatsoever the planets velocities are the rate 7.1 will be used as long as the light beam speed is 300000 km/s – that tells- the designer knew the speed (300000km/s) will be divided by the rate (7.1) whatsoever the planets velocities will be, means (300000 /7.1 = 42683) the velocity 42683 km/s is the available one because the rate 7.1 is used based on the speed of light and not based on any planet velocity- shortly- the designer had 42683 km/s as the squared value for the planets velocities total and by that the planets velocities total be 205.8 km/s forcedly because the wave is reflected and the reflection causes to square the velocities- means- the planets velocities total (205.8 km/s) is defined as a function in the speed of light (C=300000 km/s)- that shows the design had place for the planets and the sun together in the same date but the planets were found before the sun creation with long period of time because the planets motions energies should be accumulated for long period to be sufficient for the sun rays production process- where the original design contains the planets positions and the sun position- where the planets were revolving around the point of space before the sun creation and the sun is created above this same point of space.

Shortly -the sun point of space is created to be stationary point moves by velocity (1 km/s= Zero approximately) and NOT to move by any faster velocity! But why??

(iii) The Relative Motion Analysis

Here the relative motion 2 players are seen clearly which are

(1st Player)

The unified wave moves by speed of light (C=300000 km/s) relative to the sun point of space and

(2nd Player)

The sun point of space which is stationary point moves by (1km/s=Zero approximately)

NOW

We need different velocity = speed of light = 300000 km/s

The unified wave moves by speed of light (300000 km/s) and can NOT move by any higher velocity-

Because we need different velocity = speed of light = 300000 km/s

That means- the sun point of space should be stationary point and moves by (1 km/s) and NOT by any faster velocity

In fact the sun point of space is the responsible for the sun rays creation- where the unified wave moves in the space and no any light beam can be created on any point of space except on the sun point of space because all space points are in motion and all of them move by velocities greater than 1 km/s and by that the different velocity can never be = speed of light =300000 km/s

That explain the absolute necessity to make the sun point of space velocity 1 km/s and to prevent the sun point to move by any faster velocity.

In fact- the whole process to produce the sun rays depends on the sun point of space motion- the system shows inevitable data can't be avoided- the sun point of space velocity should be 1km/s=Zero approximately (Stationary point) and The Unified Waves move by speed of light (300000 km/s) and the different velocity will be = the speed of light = C=300000 km/s and the unified waves reflection will cause to square this speed and by that the speed of light will be squared to be (C^2= squared speed of light) from which the light beam can be produced (the sun rays production)

If the sun moves by any velocity faster than 1 km/s that will make the different velocity to be less than speed of light and the squaring process will NOT produce the squared speed of light (C^) and No light beam can be created in this case

The sun point of space is the mother of all light beams and no any other point in space can produce the light beam in the solar system

Let's remember the new article

This Is Extraordinary: Gravity Can Create Light, All on Its Own

The article tells the gravitational waves can move by speed of light and can produce a light beam- that means- the article tells- the gravitational waves can move by speed of light (relative to the sun point of space only) and can produce the light beam (on the sun point of space only)

The cornerstone is the sun point (velocity) which is 1 km/s = Zero approximately where the light beams are created because of this velocity and without it No light beam can be created.

NOTICE

The sun rotation period at equator is 25.4 solar days and the sun circumference is 4.37 million km- this motion is done by velocity = 2 km/s

Means- if the sun moves by velocity (2 km/s) the sun would rotate around its axis in 25.4 solar days- that shows- the velocity 1km/s is fact and even found in the sun motion data- (please note- we may consider that the different in velocity between 1 km/s and 2 km/s as very small difference but the sun point is very sensitive for any faster velocity than 1 km/s- and for that- the sun rays can be produced if the planets motions distances total be =90000 million km- BUT- because the sun real velocity is 2 km/s- that forced the planets motions distances total to be 180000 million km to produce light beam because (for velocity 1 km/s the required distance is 90000 mkm) and (for 2 km/s the required distance is 180000 mkm)

NOTICE

The squared speed of light C^2 equals 90000 million km for a period (one second)

(iv) The Relative Motion General Description

the previous analysis tried to show the relative motion description- I tried to explain that- the unified wave moves relative to the sun point of space-

this meaning is the major one I tried to explain in the relative motion analysis-

the unified wave is stored in the Earth moon orbit and revolves around the sun through the moon orbit but the wave moves relative to the sun point of space- means- the unified wave in motion observes the sun point of space-

let's give example

The train moves relative to the station platform-

Similar to that- the unified waves move relative to the sun point of space and for that the wave motion velocity is relative to the sun point motion velocity and the unified wave motion direction is defined relative to the sun point of space position- this motion is done based on geometrical rules and mathematical calculations-

Please note- I wish I explained the idea clearly- the relative motion is the mechanism by which the sun rays are created- this is the machine produces the light beam and for that the relative motion is not created by (chance) or without (geometrical design)

On the contrary- the relative motion is designed geometrically accurately and all planets define their motions to support this relative motion and all motions in the solar system are found to support this relative motion-

Let's try to explain this meaning more clear

Suppose one city is built on a small island in the sea and this island has one bridge only to great and wide land found beside this island- this bridge is the only exit from this island to the great land- for that- all roads in this island are designed relative to this bridge and also the great land roads designed to receive the motion through this bridge- without this bridge the people on island will be dead simply

Similar to that- without the relative motion between the unified wave and the sun point of space NO light beam can be created – for that- all planets motions and data are defined into consideration to this relative motion.

(v) Planet Day Period Role

The Earth Day Period Is 24 Hours?

What's the Earth day period – let's remember together

The Earth rotates around its axis (360 degrees) in 23.9 hours and after the rotation the Earth finds itself in some strange place relative to the sun- where the sunrise and sunset will be done in different places- but why? because during 23.9 hours the Earth moves on the revolution track a distance 2.57 mkm which equal (one degree approx) on the revolution track- means- if the Earth wants to be in the same position relative to the sun to cause the sunrise and sunset be done in there usual places the Earth have to move additional (one degree approx)- means- the Earth rotation period should be 361 degrees and not 360 degrees-

Do we realize what's happening here? the earth puts itself in the same relative position to the sun- this motion aims to support the Sun-Earth relative motion and that aims to support the sun-wave relative motion- means – the planet day period is used to cause the relative motion between the unified wave and the sun in accurate where each planet defines its position relative to the sun point to enable the wave to move relative to the sun point based on accurate system and design

Shortly- the relative motion between the unified wave and the sun point is done based on very accurate geometrical design to guarantee that the wave moves relative to the sun point where the sun point moves by 1 km/s and NOT faster

[

(vi) Venus Role In The Sun Rays Creation

We remember, the unified wave is reflected and sent from Saturn to Venus moving by speed of light- and Venus should reflect this wave toward Mars- this is Venus main Job- BUT- Venus defines the wave motion trajectory and that means Venus defines the angle by which the wave is reflected toward Mars- because- Venus tried to make the unified wave moving relative to the sun point of space- means- Venus observes the sun point of space and reflects and pushes the unified wave to move relative to the sun point of space- that makes Venus as the main engineer in the solar system because Venus defines the angle by which the unified wave is reflected and by that Venus defines the wave motion trajectory and Venus does that to enable the unified wave to move relative to the sun point of space

NOTICE No.(1) that explains why Venus rotation period is 243 solar days and Venus day period is 116.75 days where the rotation contains almost two days- why? because Venus observes the sun on both sides (full cycle) because Venus defines the wave motion trajectory and for that Venus observes the sun nearly to enable the relative motion between the unified wave and the sun point of space to be occurred clearly.

NOTICE No.(2)

The total solar eclipse refers to the used deep accuracy in the data definition which explains the importance of this accuracy for the motion- let's remember its data

4900 mkm (Jupiter orbital circumference) = 1.39 mkm (the sun diameter) x 3475 km =12104 km x 406000 km = 12756 km x 384000 km = 6792 km x 2 x 363000 km

3475 km = the moon diameter 12104 km = Venus diameter

12756 km = The Earth diameter 6792 km = Mars diameter

363000 km, 384000 km and 406000 km are the distances between the Earth and its moon in perigee, orbital distance and apogee radiuses respectively

The proportionality between the sun position and data with the other planets data is found to form accurate design for The Relative Motion by which The Sun Rays Are Produced- also- the accurate design aims to guarantee that the sun point moves by velocity 1 km/s (= Zero approx) and not faster-

I try to show the importance of Venus motion where Venus is the engineer behind this data and all other proportional data related to the sun position and motion

BUT

The proportionality between the sun diameter and data with the planets data aim to make the sun point velocity to be 1 km/s – how? why the sun diameter has effect on the sun point velocity?

My planet diameter equation proves that the planet diameter is created based on its velocity-means- for example- Neptune diameter is 49528 km because Neptune velocity is 5.4 km- based on this fact- the sun diameter is in proportionality with the planets data to guarantee the sun point velocity is 1 km/s and NOT faster

NOTICE No.(3)

In following I make comparison between Venus and Mars data to show the reflection of energy effect on the planets data- the paper provides more similar data but I want to show the data of the two planets because we work with them now and we know the process between them and I want to show the effect of this process on their data

12104 km (Venus diameter) / 6792 km (Mars diameter) = (3.4/1.9) = π^0.5

3.4 deg and 1.9 deg are the orbital inclinations of Venus and Mars respectively

1392000 km (The sun diameter) = 12104 km x 115 = 6792 km x 205

25.2 degrees = Mars axial tilt but 25.2 +90 = 115.2 deg and 25.2+180 = 205 deg

177.4 deg (Venus axial tilt) = 1.9 deg x 93.4 deg where 3.4 deg +90= 93.4 deg

I try to show that – accurate geometrical design is found between Venus and Mars which is required to define the unified wave motion trajectory accurately to enable the relative motion between the unified wave and the sun point of space to be created based on accurate design.

Gerges Francis Tawdrous +201022532292

Physics Department- Physics & Mathematics Faculty

Peoples' Friendship university of Russia – Moscow (2010-2013)

Curriculum Vitae https://www.academia.edu/s/b88b0ecb7c

E-mail [email protected], [email protected]

[email protected]

ORCID https://orcid.org/0000-0002-1041-7147

Facebook https://www.facebook.com/gergis.tawadrous

VK https://vk.com/id696655587

Tumblr https://www.tumblr.com/blog/itsgerges

Researcherid https://publons.com/researcher/3510834/gerges-tawadrous/

Google https://scholar.google.com/citations?user=2Y4ZdTUAAAAJ&hl=en

Livejournal https://gerges2022.livejournal.com/profile

Pocket https://getpocket.com/@646g8dZ0p3aX5Ad1bsTr4d9THjA5p6a5b2fX99zd54g221E4bs76eBdtf6aJw5d0?src=navbar

PUBLICATIONS

box https://app.box.com/s/47fwd0gshir636xt0i3wpso8lvvl8vnv

Academia https://rudn.academia.edu/GergesTawadrous

List of publications http://vixra.org/author/gerges_francis_tawdrous

Slideshare https://www.slideshare.net/Gergesfrancis

4 notes · View notes

futuretrain · 1 year ago

Text

smallville was such a funny show on a meta level to me personally. it is possibly one of the reasons birthright, one of the most widely recommended superman stories, was written, or at the very least, it did have influence on it (along with silver/bronze age superboy comics). due to logistical constraints the city of metropolis is situated in kansas, within driving distance from smallville itself. every actor you can think of and then some were in it. amy adams was in it ages before she was ever picked to play lois. they had high school musical ryan as kon for a couple of episodes. fucking. princess diaries 2 andrew jacoby was there as GENERAL ZOD. tell me that doesn't sound unhinged! he was terrific zod too!! this show started the superhero tv trend of actors who previously played a character returning as one of the older generation: teri hatcher played lois's mom, and helen slater who played kara in the 1984 supergirl movie was cast as lara el (clark's biological mother). the amount of offenses to superman canon this show did is unbelievable, mxyzptlk was just. a guy. a regular guy with powers. who was from eastern europe. named mikhail. who signed off on that???? literally Everyone was an established hero before superman except for batman and that's HILARIOUS. they really tried to pull off clark and lana for most of the show like it was written by chuck austen and then dropped it within one season and a couple of episodes. if someone yells "somebody" at me I'm not continuing with all stars I'm singing "SAAAAAVE MEEEE" because that theme song is ingrained in my memory even years after watching all 10 seasons. what an incredible show i will never watch it again

#there really was just so many wild things in this show that make me feel absolutely unhinged #do you know how often i think about the fact that andrew jacoby and GENERAL FUCKING ZOD were played by the same person #this show altered my brain chemistry definitely but i can only ever touch like. 3 seasons and a handful of eps from others anymore #if i try to rewatch more than 1 ep in a row from pre-s8 i black out and when i wake up something different is opened on my computer #smallville #ń txt #supers #komiksy

23 notes · View notes

agent-tempest · 1 year ago

Text

Yes it is toxic but you cannot lie the chemistry between the Darkling and Alina is electric

#Istg from the first moment they meet #it's like boom #Ben and Jessie have such good chemistry #ben barnes #the drakling #general kirigan #alexander morozova #alina starkov #the sunsummoner #shadow and bone #shadow and bone season 1 #netflix #jessie mei li #grishaverse #leigh bardugo #enya talks #enya talks s&b #enya talks grishaverse

14 notes · View notes

holopossums · 7 months ago

Text

i honestly don't think i'll ever change my text tag and i'll continue to use it across all blogs i have. the sonic sez segment in TAOSTH is a core part of my childhood

#actually sonic in general is a core part of my childhood #Sonic SatAM and Sonic Adventure 1 & 2 changed my brain chemistry #sky sez

2 notes · View notes

thingswhatareawesome · 1 year ago

Text

#lol i see the jealous caelus art and it's too cute #but i can see why he would be ^^;#the danheng/trl tag on ao3 is still ahead of the danheng/jingyuan tag but jingheng has gained a lot #it used to be like 1/3 of dancae but now it's almost half it's getting a lot of new content #i feel bad for caelus he's starting to not get written about as much the trl in general i mean #like the jingheng tag is 418 and jingcae is stalled at 47 SO MUCH FEWER :(#and i bet we'll see a time where the jingheng tag exceeds the danheng/trl one #going back in old bookmarks there used to be SO much better fic quality for dancae #but i hate to say it most of the better writers i think have gone on to liking danheng with others :/#which is kind of sad bc i love that pairing so much but there's just not that much fic happening and it's not as good as it used to be #and ofc no one ever wrote my ot3 #i'm glad for the occasional art but dang i wish there was stuff to read #ugh i just read stats for a pairing i dislike and the numbers piss me off and make me sad #bc it's just like the pairing i hated when i was into vtrn where it's not based out of anything not out of chemistry or interactions #just shit fan hcs that somehow explode even though it's based on literally nothing actually real in story or lore #wow and i think ship i dislike has just destroyed the jingren tag like there's almost nothing for it anymore and there used to be so much #i really dislike how x ship has become the klnc of sr :/#anyway it's just sad that caelus gets no love from fans in the writing department :/

7 notes · View notes

ningningkittie · 1 year ago

Text

i want a girl bestie so bad but i have no idea how to create and keep connections

#the *two* times it has happened these past years #wasnt bc of anything special #1 time it was bc she was persistent in messaging me and interacting w me. and eventually i started feeling safe w her #then we had that for years bc it was easy for me to talk to her plus she just kept being there #the second time it was on accident #i just messaged him randomlg out of nowhere #and immediately i felt like we operated on the same wavelengths bc he was easier for me to talk to #i guess also they were both my 'safe persons' (since i have avpd)#so yeah. i just immediately felt that it was simple(er) to talk w them #and that is not smth that can be forced or even built up #it has nothing to do w how much i try or how kind or patient they are #it's just chemistry i think #so yeahhhh #i dont know how to actually make friends #and i want a girl friend rlly bad :((((#i mean i just want friends in general. guys nonbinary etc etc etc #but i rllyyyy want that specific kind of friendship u can have when you're two girls

3 notes · View notes

somanyants · 1 year ago

Text

My nuanced opinion on the subject of the hard sciences hierarchy is that chemistry and biology are marking out with tongue and that physics is mostly just there to watch.

Okay something that bothers me is the fact physics is seen as the more prestigious of the three main sciences, with biology at the bottom and chemistry in the middle. Like. I doubt most people could name a famous biologist, but they could name 5 famous physicists. Why are Albert Einstein and Stephen hawking household names but Norman Borlaug and Jonas Salk aren't?

Not to dismiss the accomplishments of Einstein or Hawking, or their genius, but their actual tangible contributions to society have been miniscule compared to that of Borlaug or Salk who have each saved LITERALLY hundreds of millions, if not billions, of lives each. Half the food on your plate was probably grown thanks to Borlaug and Salk is the reason half your siblings didn't die of polio as a kid.

Sure Einsteins theory of relatively is important for modern satellite communications but really though how can it compare?

This is coming from someone who studied physics. I love physics, and years ago when i was at uni I looked down at biology and so did everyone else studying physics. And I know others did too. Retroactively of course I know this was so very wrong.

If society as a whole started treating biology with more respect then maybe more students would go into that field. If we had rockstars of medicine and agricultural science that were household names rather than just physicists? think of how many more lives could be saved, how many more lives could be improved.

I'm not saying physics isn't important, and more scientists of any kind is always good, but proportionally I think societies priorities are a little skewd.

#my BIASED opinion as a chemist is that chemistry does not get enough cred #I know this is technically about the prestige of the field and how that seems to be generally inversely related to practical use but #If not for chemistry the world wouldn’t be short 1 billion people it would be short 4 billion #80% of the nitrogen in your body likely came from the Haber Bosch process #the amount of chemistry going on in the background of our lives is insane

52K notes · View notes

er-cryptid · 6 months ago

Text

Ka and pKa

Patreon

1 note · View note

mrsfancyferrari · 3 months ago

Text

Need Saving

Summary: You are the first woman to be racing in Formula 1 and you and Max are already best friends. To Jos' dismay.

Song: Me and Your Mama by Childish Gambino

Part 2 - Part 3 - Part 4 Author’s note: CW: sexist comments, domestic violence (not from Max). I'm still salty about Daniel Ricciardo's exit to Formula 1 so I decided to add him a little here. THIS WILL BE A SERIES AND THANK YOU FOR THE 500 FOLLOWERS! Please like, reblog and share this! <3 ALSO IT'S MY BIRTHDAY!

Word count: 10.8k

MASTERLIST - F1

You are making history as the first woman to compete in Formula 1 with the Red Bull team, stepping in for Sergio Perez.

This groundbreaking achievement not only highlights your talent but also paves the way for future generations of female racers in a sport traditionally dominated by men.

Your personality shines through with a warm and friendly demeanor that makes you incredibly approachable. Colleagues and fans alike find you likable, creating an inviting atmosphere wherever you go.

This charm not only endears you to those around you but also helps foster a supportive environment within the competitive world of racing

Some have affectionately dubbed you the "Mini Honey Badger," a nod to the legendary Daniel Ricciardo. This playful comparison reflects your fierce determination and tenacity on the track, qualities that resonate with fans and fellow racers.

Your unique blend of charisma and competitive spirit is sure to leave a lasting impression in the world of Formula 1.

Luckily, you found yourself paired with one of the most talented drivers in the sport, Max Verstappen.

From the very beginning, you and Max clicked effortlessly, perhaps due to your shared sense of humor or the lighthearted way you both approached life outside of racing.

Max, known for his fierce competitiveness on the track, also had a playful side that drew you in. Whether it was sharing funny anecdotes from your childhood or engaging in friendly banter about each other's driving styles, the connection felt natural and invigorating.

You both understood the pressures of the sport, yet you managed to find joy in the little moments, whether it was a shared laugh over a silly meme or a light-hearted debate about the best racing video games.

This bond not only made your time together enjoyable but also fostered a sense of trust and teamwork that would prove invaluable as the season progressed.

During your initial week in Formula 1, the team was treated to a mix of corny jokes and uproarious laughter, creating an atmosphere that was both fun and relaxed.

It was clear that the camaraderie between you two was something special, and it didn’t take long for everyone to notice. The garage, usually filled with the tension of competition, transformed into a space of joy and lightheartedness.

You and Max would often engage in playful challenges, like who could come up with the worst dad joke or who could impersonate the team’s engineers the best.

These moments not only broke the ice but also helped to build a strong team spirit.

The mechanics and engineers, who often worked long hours under pressure, found themselves smiling more often, and the overall morale of the team improved.

It was as if your infectious energy had a ripple effect, reminding everyone that while racing was serious business, it was also about passion, fun, and the love of the sport.

Christian Horner, the team principal, seemed to recognize this chemistry right away.

He confidently remarked to the media about the dynamic of having a girl and a boy on the same team, suggesting that he had a good feeling about the partnership.

His words resonated with the fans and the media alike, sparking conversations about the evolving landscape of motorsport and the importance of diversity within the sport. It was evident that the two of you were destined to make waves together on and off the track.

Christian’s faith in your partnership only fueled your determination to succeed.

You both knew that the expectations were high, but instead of feeling overwhelmed, you embraced the challenge.

"Joseph, can you give me an update on the gap behind?" you inquired, your voice steady as it crackled through the radio to your race engineer.

The sound of your own heartbeat echoed in your ears, a reminder of the high stakes at play.

"You're looking at a 5-second lead over Norris, Y/N," Joseph Duke responded, his tone calm and focused.

As you navigated the track, the adrenaline surged through your veins, heightening your senses.

The smell of burning rubber and the roar of engines filled the air, but your focus remained solely on the asphalt ahead.

Max was currently leading the race, and you were right on his tail, just a heartbeat away from making a decisive move.

With the world championship points on the line, every second counted, and the team’s strategy was crucial.

"Copy that, Joseph. I’m feeling good about this pace. Should I push to overtake Max?" you asked, weighing your options.

The tension in the air was palpable, and you could almost hear the roar of the crowd in your mind, their cheers and gasps fueling your determination.

You could picture the fans waving flags, the excitement building as the race unfolded.

"Remember, he’s leading the championship, so those points are vital for him," Joseph reminded you, his voice steady and measured.

You took a deep breath, considering the risks and rewards of your next move. The thought of overtaking Max was tantalizing, but the consequences of a miscalculation loomed large.

"Understood. But if I don’t make a move soon, he might pull away," you replied, your mind racing through the possibilities.

You could see the track ahead, the curves and straightaways that could either make or break your race.

"Just keep your head in the game, Y/N. Focus on your lines and stay patient. The opportunity will come," Joseph advised, his experience guiding you through the chaos.

You nodded, even though he couldn’t see you, reminding yourself that patience was key.

As you approached the next turn, you felt the car respond to your every command, the tires gripping the asphalt with precision.

You could see Max’s car just ahead, a flash of blue and white, and the urge to push harder surged within you.

"Alright, I’ll hold back for now, but I’m ready when the moment strikes," you said, determination lacing your words.

The opportunity to seize the grand prix had slipped through your fingers, leaving you with a bittersweet taste of second place as Max celebrated his victory.

It wasn’t that you felt anger towards him; after all, the stakes were high, and the competition was fierce.

You had performed admirably, even outshining Checo this season, and Red Bull was finally back to their P1-P2 glory.

As you stepped out of your car, the adrenaline still coursing through your veins, you spotted Max waiting for you, his helmet off and a look of concern etched on his face.

He rushed over, his expression serious as he enveloped you in a quick hug. “You don’t hate me, do you?” he asked, his voice barely above a whisper.

You couldn’t help but chuckle at the unexpected question. Removing your helmet, you met his gaze with a warm smile. “Of course not! But don’t think I’ll go easy on you next week,” you replied playfully, your competitive spirit igniting once more.

Max’s face lit up with a genuine smile, the tension dissipating. “Mate, I won’t go down that easy!” he shot back, his eyes sparkling with the thrill of rivalry.

As you made your way to celebrate with the team, you noticed the difference in how they treated you compared to Max. While he was hoisted into the air, receiving enthusiastic cheers and bone-crushing hugs, you felt a more cautious approach directed your way.

It was a subtle reminder of the gender dynamics at play in the sport. You brushed it off, focusing instead on the camaraderie and the shared passion that brought you all together.

The post-race atmosphere was electric, filled with the sounds of laughter, clinking glasses, and the occasional shout of joy.

You joined in the celebrations, clapping your hands and cheering for your teammates, but a part of you remained introspective.

You replayed the race in your mind, analyzing every corner, every overtaking maneuver, and every missed opportunity.

The thrill of competition was intoxicating, but so was the desire to prove yourself, not just to the team but to the world.

As the evening unfolded, you found yourself lingering at the periphery of the lively celebration, your gaze fixed on Max as he reveled in the spotlight of his victory.

He was the star of the night, the one everyone clamored to congratulate, while you stood in the shadows, merely the second driver.

Christian approached, giving your shoulder a friendly pat, a gesture of appreciation for your support. Yet, it felt insufficient.

You masked your feelings with a bright smile as you watched Max raise his glass, laughter spilling from his lips as the clock inched toward midnight.

“Goodnight, Max,” you called out, aware that your boyfriend, Jake would be less than pleased if you lingered too long.

“Goodnight, best friend! Did I mention you look lovely tonight?” Max replied, his words slightly slurred as he pulled you into a warm embrace.

You felt your cheeks heat up. “No, you didn’t! Thank you, Max. You look great too!” you managed to say, your heart fluttering at the compliment.

As the night wore on, you exchanged goodbyes with the others, the atmosphere buzzing with joy and celebration.

You decided it was time to head home, opting for a taxi since you had indulged in a few drinks earlier.

Once inside the cab, you leaned back against the seat, reflecting on the evening. The laughter, the cheers, and the way Max had shone like a beacon of success.

It was hard not to feel a twinge of envy, but you pushed it aside, reminding yourself of the bond you shared.

The driver navigated through the city streets, and you pulled out your phone, scrolling through the photos from the night.

There was Max, grinning ear to ear, surrounded by friends, and there you were, a supportive figure in the background.

Just as the car turned, your phone buzzed in your pocket, and you glanced down to see a message from Jake.

“Where are you?” he texted, the words appearing on your screen like a gentle reminder of the warmth waiting for you at home.

You smiled, feeling a rush of affection as you typed back, “Just left the party! On my way home now. Can’t wait to see you!”

The taxi weaved through the city streets, and you could almost picture him waiting for you, perhaps pacing a little, his brow furrowed in that adorable way he did when he was worried.

You could hear his voice in your head, teasing you about how you always took too long to say goodbye, but you knew he loved it just as much as you did.

As the taxi pulled up to your building, you felt a flutter of excitement. You paid the driver and hurried inside, your heart racing with anticipation.

As you stepped into the apartment, a heavy scent of alcohol hit you like a wave, and your heart sank.

The cheerful anticipation you had felt moments before evaporated, replaced by a knot of anxiety in your stomach. You knew Jake had been struggling lately, and the telltale signs of his mood were all around you.

Empty bottles cluttered the coffee table, their labels peeling and faded, remnants of nights spent drowning sorrows that seemed to multiply with each passing day.

Taking a deep breath, you cautiously made your way further inside, hoping to find a glimmer of the warmth you once cherished, a flicker of the love that had once filled this space.

“Hey, babe, I’m home!” you called out, trying to inject some cheer into the atmosphere, but your voice felt small and fragile against the oppressive silence that enveloped the room.

The silence that followed was deafening, and you could feel the tension in the air, thick and suffocating.

Just then, he emerged from the shadows of the living room, his eyes glassy and unfocused, as if he were peering through a fog that had settled deep within him.

“Oh, look who decided to show up,” he sneered, his voice dripping with sarcasm, each word laced with bitterness. “Did you have fun pretending to be normal out there?”

You felt a chill run down your spine as he continued, hurling insults that cut deeper than you wanted to admit.

It was as if he was trying to push you away, to create a chasm between you that felt insurmountable.

And yet, amidst the hurt, you couldn’t help but feel a pang of sympathy for the man you loved, the one who was lost beneath layers of pain and anger.

“Why do you always have to do this?” you asked, your voice trembling slightly, the vulnerability in your tone betraying the strength you wished to project. “I just want to help you.”

He scoffed, dismissing your concern with a wave of his hand, the gesture almost theatrical in its disdain. “Help? You mean control. You think you can just waltz in here and fix everything? You’re just like everyone else, trying to tell me what to do.”

The words stung, and you felt the weight of his accusations pressing down on you, each syllable a reminder of the distance that had grown between you.

“I’m not trying to control you,” you replied softly, “I just want to be there for you. Can’t we talk about this?”

But as you looked into his eyes, you realized that the man you once knew was slipping further away, lost in a haze of his own making.

His gaze, once so full of life and passion, now seemed clouded, distant. It was as if he was peering through a murky window, unable or unwilling to see the vibrant world outside.

You could see the shadows of his struggles etched on his face, the lines of worry and anger deepening with each passing day. It pained you to witness this transformation, to see the light in him dimmed by his own fears and insecurities.

“Why can’t you see that I’m trying to help?” you pressed, your heart racing as desperation crept into your voice. “I’m not your enemy. I want to understand what you’re going through.”

You took a tentative step closer, hoping to bridge the gap that felt insurmountable.

But he recoiled slightly, as if your words were a physical blow, and the distance between you felt more pronounced than ever.

“Understand?” he scoffed, his tone laced with bitterness. “You think you can just waltz in and understand? You have no idea what it’s like to feel trapped, to have every choice taken from you. You don’t know the weight of this burden.”

His voice cracked, revealing a flicker of vulnerability beneath the bravado.

As soon as you opened your mouth to speak, Jake brushed by you, grabbing his coat and shoes in one swift motion.

"I'm heading out for a walk. Don't even think about following me," he snapped, his words laced with the sting of alcohol.

You simply nodded, feeling a mix of concern and frustration, but you stayed rooted in place until you heard the door slam shut behind him.

With the sound echoing in the silence, you finally exhaled, the tension in your chest easing just a bit. You glanced around the room, the remnants of the night scattered everywhere—empty bottles and crumpled napkins littered the floor.

"Guess it's cleanup time," you muttered to yourself, bending down to gather the bottles. As you worked, your mind raced with thoughts of him.

Just then, your phone buzzed on the table. It was a message from your best friend, Sarah.

"Hey! How's everything? You okay?"

You sighed, typing back quickly. "Not great. He just stormed out after a fight. I’m cleaning up the mess now."

A moment later, your phone chimed again. "Want me to come over? I can help."

You hesitated, glancing at the door. "No, it’s fine. I just need to sort things out."

"Are you sure? You shouldn’t be alone right now."

You paused, considering her words. "I’ll be okay. I just need to think."

As you continued to tidy up, you replayed the argument in your mind. It had started over something trivial, but the alcohol had turned it into a full-blown fight.

You could hear his voice in your head, the way he had raised his tone, the way he had dismissed your feelings.

"Why does he always do this?" you whispered to yourself, frustration bubbling up again.

You were well aware that he wouldn’t be returning anytime soon.

After tidying up the house, you decided to treat yourself to a long, relaxing bath.

The warm water enveloped you, washing away the day’s worries. Once you felt refreshed, you slipped into your favorite pajamas and crawled into bed, the soft sheets providing a comforting embrace.

He hadn’t always been this way—filled with anger and lost in the depths of alcoholism.

You both had shared a beautiful love story, starting as high school sweethearts. You could still remember the way he used to look at you, his eyes sparkling with affection, mirroring the love you felt for him.

As you lay there, memories flooded your mind. You recalled the laughter, the late-night talks, and the dreams you had built together. But now, those dreams felt like distant echoes, overshadowed by the weight of his struggles.

Maybe it was the pressure of work that was taking a toll on him. You thought back to the last time you had a heart-to-heart.

“Do you remember when we used to talk about our future?” you had asked him one evening, the two of you sitting on the porch, the sun setting in a blaze of colors.

He had sighed, running a hand through his hair. “Yeah, I remember. It feels like a lifetime ago.”

“Things can get better, you know. We can work through this together,” you had urged, your heart aching for the man you once knew.

He had looked away, his expression clouded. “I don’t know if I can. Sometimes it feels like I’m drowning, and I don’t know how to swim anymore.”

You had reached for his hand, squeezing it gently. “You’re not alone in this. I’m here for you, always.”

But as the days turned into weeks, the distance between you grew. The man you loved was slipping away, replaced by someone you barely recognized.

Now, lying in bed, you couldn’t help but wonder if he would ever find his way back to you. Would he remember the love you once shared? Would he fight against the demons that haunted him?

With a heavy heart, you closed your eyes, hoping that tomorrow would bring a glimmer of hope, a sign that the man you loved was still inside, waiting to break free.

As you settled into bed, the glow of your phone screen illuminated the dark room, revealing a flurry of notifications that had accumulated while you were winding down.

Most of them were filled with excitement, congratulating you on your impressive second-place finish in the race. However, amidst the sea of cheerful messages, one stood out—a private note from Max.

While some comments stung with negativity, suggesting you didn’t belong in the world of Formula 1, Max’s message was a beacon of warmth.

“Thanks for coming to celebrate with me 👍,” it read, and a smile crept across your face, momentarily pushing away the weight of the harsh words.

You felt a mix of emotions swirling within you, and for a moment, tears threatened to spill over. But instead of succumbing to the sadness, you decided to respond to Max.

Your fingers danced over the screen as you typed, “I wouldn’t have missed it for the world, you deserved it! 😁” The moment you hit send, a sense of relief washed over you.

It was a reminder that amidst the criticism, there were still those who appreciated your presence and celebrated your achievements.

You could almost hear Max’s laughter echoing in your mind, a sound that always seemed to lift your spirits.

Just as you were about to put your phone down, a new message popped up from Max. “You really made the night special! I’m glad you were there. Let’s catch up soon?”

His words filled you with warmth, and you could picture him grinning with alcohol still in his system, his eyes sparkling with enthusiasm.

“Absolutely! I’d love to,” you replied, feeling a renewed sense of purpose.

After setting your phone aside for the night, you drifted off to sleep, the soft hum of the world outside fading into a distant memory.

When you awoke, you were enveloped in a warm embrace, the kind that felt like home. Instantly, you recognized the familiar presence of Jake, his body radiating warmth against yours.

The scent of alcohol lingered in the air, a reminder of his previous night out with friends, a detail that both amused and concerned you.

A smile crept across your face as you turned to see him, his features relaxed and serene, a stark contrast to the tension that had marked his demeanor the night before.

Curiosity sparked within you, igniting a flurry of questions as you pondered where he had spent his time, what stories he might have to share, and whether the night had been as wild as you imagined.

You felt a rush of affection for him, a desire to know every detail of his adventures, to understand the man who had captured your heart so completely.

Despite the warnings from your friends urging you to reconsider your relationship, your feelings for him remained steadfast, unwavering like a lighthouse in a storm.

They claimed he was a source of trouble, a tempest that could jeopardize your career and stir up scandals that would ripple through your life.

Yet, deep down, you understood him better than they did, seeing the layers of his character that they overlooked. You believed in his integrity, in the goodness that lay beneath the surface, and you knew he wouldn’t intentionally cause chaos in your life.

Their concerns echoed in your mind, but they felt distant, like the sound of waves crashing against a far-off shore.

You were determined to forge your own path, to trust your instincts, and to embrace the love that had blossomed between you, even if it meant standing alone against the tide of skepticism.

Although your relationship was already in the public eye, with whispers and speculation swirling around you like autumn leaves caught in a gust of wind, he had yet to join you in the paddock due to his work commitments.

You felt a mix of anticipation and longing, a bittersweet ache in your chest as you navigated the bustling environment without him by your side.

As you glanced at your phone, the screen illuminated the early morning hour, signaling it was time for your daily jog.

You carefully extricated yourself from Jake's embrace, trying not to disturb his peaceful slumber.

Just as you were about to tiptoe out of the room, you caught a faint mumble escaping his lips, a mix of sleep and concern. “Where are you going?” he murmured, his voice thick with drowsiness.

You paused for a moment, torn between the urge to reassure him and the need to stick to your routine.

“I’m just going for a quick run, love. I’ll be back before you know it,” you replied softly, hoping to ease any lingering worries. His brow furrowed slightly, even in his sleep, as if he sensed your departure was more than just a morning ritual.

“You always run too early… what if someone sees you?” he muttered, a hint of jealousy creeping into his voice, even in his dreams.

With a gentle smile, you leaned down to plant a quick kiss on his forehead. “I’ll be fine, I promise. It’s just me and the open road. You know I love my morning jogs.”

You could feel the tension in the air, a familiar weight that often accompanied your outings. “Okay,” he finally said, though the uncertainty lingered in his tone.

You quickly changed into your jogging attire before stepping out of the house. With a sense of urgency, you slipped into your comfortable workout gear, ready to embrace the fresh air outside.

The fabric of your favorite moisture-wicking shirt clung to your skin, and the soft elastic of your running shorts felt familiar and reassuring.

You laced up your well-worn sneakers, the soles still resilient from countless miles, and took a moment to stretch your legs, feeling the anticipation build within you.

Once dressed, you felt the excitement of the run ahead, eager to hit the pavement and enjoy the rhythm of your feet against the ground.

The world outside beckoned, vibrant and alive, as you opened the door and stepped into the crisp morning air. The scent of dew-kissed grass and blooming flowers filled your lungs, invigorating your spirit.

You took a deep breath, letting the coolness wash over you, and with a quick glance at the sky, you noted the sun just beginning to rise, casting a golden hue across the horizon.

As you began to jog, the familiar cadence of your heartbeat matched the steady thump of your feet on the pavement. Each stride felt liberating, a release from the confines of the day-to-day.

You could feel the tension of the week melting away with every step, replaced by a sense of freedom and clarity.

The rhythmic sound of your breath mingled with the rustle of leaves and the distant chirping of birds, creating a symphony of nature that accompanied you on your journey.

As you were enjoying your morning jog through the park, the rhythmic sound of your feet hitting the pavement was suddenly interrupted by a group of enthusiastic voices.

A cluster of women and girls approached you, their faces lighting up with excitement. "Excuse me! Miss Y/N! Can we get your autograph?" one of them exclaimed, her eyes sparkling with admiration.

You paused, a bit surprised but also flattered, and smiled at the eager crowd. "Of course! I’d be happy to," you replied, pulling out a small notepad from your pocket.

Amid the chatter, a young girl stepped forward, her cheeks flushed with excitement. "I want to start go-karting because I want to be just like you!" she declared, her voice filled with determination.

You could see the passion in her eyes, and it warmed your heart. "That’s amazing! Go-karting is such a fun sport," you encouraged her. "What do you love most about it?"

The girl beamed, her confidence growing as she shared her dreams of racing and the thrill of speed. "I love the idea of being in control and going fast! It looks so cool!"

You nodded, feeling a sense of responsibility to inspire her. "You know, every champion starts somewhere. If you really want to do it, just keep practicing and never give up. Surround yourself with people who support you, and you’ll go far," you advised, hoping to instill a sense of belief in her.

The girl’s eyes widened, and she nodded vigorously. "I will! Thank you so much!"

As the group dispersed, you felt a renewed sense of purpose, realizing that your journey could inspire others to chase their dreams, just as you had. . . .

As the days rolled on, the team decided to spice things up a bit before race week by organizing a fun game called "How Well Do You Know Each Other."

The idea was to not only entertain the fans but also to give everyone a glimpse into the camaraderie between you and Max.

You found yourself standing in front of the camera, a mix of excitement and nerves bubbling inside you, while Max lounged comfortably on the sofa behind you, his headphones snugly in place, unable to listen in.

The staff kicked off the game with a playful tone, "Alright, let’s start with you! The first question about Max is… what is Max's favorite food?" You grinned, confident in your knowledge of your teammate.

"Oh, I know this one! Max is a huge fan of both Italian and Dutch cuisine, while I personally lean more towards Spanish dishes," you replied, your voice filled with enthusiasm.

The crew chuckled, clearly enjoying the banter, and you could see Max nodding in agreement, a smirk on his face even though he didn't know what you said.

After a few more questions, it was time for the roles to reverse. You took a seat on the sofa, and Max stood in front of the camera, a playful glint in his eyes.

The staff asked him the same question, and he leaned forward, a teasing smile forming. "Well, I know my teammate pretty well! She loves her Spanish food, but I think she secretly wishes she could cook like an Italian chef," he joked.

"You better be getting this right, I wanna beat Charles and Carlos' record," you said, feeling the competitive in you to beat Ferrari's record of 18 out of 20 right.

Max only turned around and gave an okay sign since you couldn't hear him, adding a little small wink for the tease but it was caught on camera.

In the end, both you and Max aced all the questions, and the excitement bubbled over as you jumped up and down, your energy infectious. Max stood nearby, a wide grin spreading across his face as he watched your enthusiasm.

"See, everyone! Red Bull is clearly the superior team compared to Ferrari, so make sure to support us this week!" you exclaimed, wrapping up the video with a flourish.

As you turned to Max, you noticed he was still gazing at you, lost in thought. It took you by surprise.

"Max, do you want to add anything to what I just said?" you asked, a playful grin on your face as you nudged his shoulder gently.

Snapping back to reality, Max turned to the camera, a hint of sheepishness in his expression.

"Oh, umm, yeah… Red Bull domination, I guess?" he replied, his voice a mix of uncertainty and enthusiasm.

You couldn't help but burst into laughter at his response, and Max's smile widened, clearly pleased that he could make you laugh.

"Alright, everyone, that's a wrap! We'll catch you all soon. Fingers crossed for another P1-P2 finish, but maybe next time we can switch things up a bit," you said, waving enthusiastically at the camera.

As the camera clicked off, you turned to the crew with a warm smile, expressing your gratitude for their support. You shifted your focus to Max, who was standing nearby, a mix of anticipation and amusement on his face.

"Hey, Max," you began, a playful glint in your eye. "How does it feel to be the most compatible drivers on the grid?"

Max's eyes widened slightly at the phrase "most compatible," and you could see a hint of color rising to his cheeks. But as soon as he processed the word "driver," his expression shifted to one of mild disappointment.

"It feels nice, I guess," he replied, a smirk creeping onto his lips. "Just another thing to brag about to Lando, right?"

You chuckled, knowing how much Max loved to tease his fellow drivers. "Oh, absolutely! I can already picture it—Lando rolling his eyes while you go on about how you and I are the ultimate duo."

Max laughed, shaking his head. "He'll probably come up with some ridiculous comeback, like how he’s the best driver in the world or something."

"Well, he does have a knack for that," you said, leaning against the wall, enjoying the banter. "But let’s be honest, you two are like an old married couple. Always bickering but secretly caring for each other."

Max rolled his eyes dramatically. "Please, I’m not ready for that kind of commitment. I can barely handle my own sleeping schedule!"

Max shrugged, a hint of humility creeping into his demeanor. "But honestly, having you around makes it easier. You bring a different energy to the team."

You felt a warmth spread through you at his words. "Thanks, Max. That means a lot coming from you. I think we balance each other out pretty well."

He nodded, his expression thoughtful. "Yeah, it’s like we have this unspoken understanding. You know when to push me and when to let me breathe. It’s refreshing."

"Exactly! And it’s not just about racing; it’s about the camaraderie we build off the track too. Those late-night strategy sessions and the random moments of laughter—they all add up."

Max chuckled, recalling a particularly ridiculous moment from a previous race weekend. "Remember that time we got lost trying to find the catering tent? We ended up in that random fan zone instead!"

You burst out laughing, the memory flooding back. "Oh my god, yes! And those fans were so excited to see us, they thought we were there for a meet-and-greet! We ended up taking selfies with them for an hour."

"Right? And then we finally found the catering tent, only to discover they were out of your favorite pasta!" Max added, shaking his head in disbelief.

"That was a tragedy," you said, feigning a dramatic sigh. "But it turned into one of the best days. I wouldn’t trade those moments for anything."

Max’s gaze softened as he looked at you, a genuine smile breaking through. "Me neither. It’s those little things that make all the hard work worth it."

You both stood in comfortable silence for a moment, the camaraderie between you palpable. The atmosphere around the paddock buzzed with activity, but in that moment, it felt like you were in your own little world.

"Alright, enough of the mushy stuff," Max said, breaking the moment with a playful nudge. "Let’s get back to business. We’ve got a race to prepare for, and I can’t let you steal all my glory."

You laughed, shaking your head. "Oh, please! You know I’m just here to make you look good. Besides, I wouldn’t dream of overshadowing the reigning champion."

What you two didn't know was that the cameras didn't stop but recorded your little moment, which went viral in the few minutes that it was posted. . . . .

★・・・・・・★ ★・・・・・・★ ★・・・・・・★

You knew that the public would start shipping you and Max together sooner or later but you weren't bothered with it.

You had a boyfriend who you cared for deeply, someone who had been your rock through the ups and downs of your racing career. Yet, his reaction to the swirling rumors about you and Max took you by surprise.

You never imagined he would be so affected by the gossip that seemed to spread like wildfire through the paddock and beyond.

Here you were, caught in a web of emotions, torn between the thrill of a new chapter and the loyalty you felt towards your current relationship.

As you stepped through the door of your home, the familiar scent of your shared space enveloped you, but it did little to ease the tension that hung in the air.

You found Jake lounging on the couch, his eyes glued to his phone, the glow of the screen illuminating his furrowed brow. The atmosphere was thick with unspoken words, and you could sense that something was off.

“Hey, babe,” you greeted him, trying to sound cheerful despite the weight on your shoulders. He barely looked up, his fingers scrolling furiously, as if searching for answers in the digital chaos.

“Did you hear about you and Max?” he finally snapped, his voice laced with irritation, cutting through the silence like a knife. “It’s all over social media. Are you really going to let this get to you?”

You felt your heart sink; you had hoped for a different reaction, one that would reassure you that your relationship was strong enough to withstand the storm of rumors.

“Come on, it’s just rumors,” you replied, trying to keep your voice steady, though the tremor in it betrayed your inner turmoil. “You know I’m committed to only you.”

You watched as he shot you a skeptical glance, his jealousy bubbling to the surface like a volcano ready to erupt. “Yeah, but how can I trust you when you’re out there with him all the time? It’s not just a coincidence that everyone is talking about it.”

The words stung, and you took a deep breath. "Babe I love only you-"

"Please, don’t even think about it! You know I’m stuck here because if I walked away, your fans would make my life a living nightmare," Jake exclaimed, his voice laced with frustration.

The words hit you like a punch to the gut, leaving you reeling from the harsh reality of your situation.

It was as if he had taken a knife and twisted it, exposing the raw vulnerability you had tried so hard to hide.

You could feel the sting of tears welling up in your eyes, but you fought to keep them at bay. "I didn’t ask for any of this," you replied, your voice trembling slightly.

The weight of his words hung heavily in the air, and you could sense the tension between you growing thicker by the second. It was a battle of emotions, and you were losing ground.

He sighed, running a hand through his hair in frustration. "I know it’s not fair, but you have to understand the pressure I’m under. It’s not just about us; it’s about my career, my fans. I can’t let them down."

His eyes softened for a moment, revealing a glimpse of the man you fell in love with.

"But I don’t want to lose you. Can’t we find a way to make this work?" You pleaded.

"I don't know," he muttered, not lifting his eyes from his phone before standing up and walking past you to get his coat and shoes. "i'm gonna take a walk,"

This has been a pattern for weeks now. You would come home, he would start an argument then make up an excuse to leave the house, leaving you to either pick up his mess or go to sleep without your partner. To only wake up with him cuddling you in the morning and apologise for his action last night.

You were getting sick of it but you still love him too much to break up with him. . . .

The days that followed were a blur of introspection and emotional turmoil. Each time you caught a glimpse of Jake’s name on your phone, a knot formed in your stomach.

You had always been the type to see the good in people, to believe that love could conquer all, but the reality of your situation was becoming harder to ignore.

The moments of tenderness were overshadowed by the growing unease that settled in your chest like a heavy stone.

You spent more time with Sarah, who seemed to sense your internal struggle. She filled your days with laughter and distraction, taking you out for coffee, long walks in the park, and movie marathons that kept your mind off the impending decision.

Yet, no matter how much you tried to push it aside, the thought of Jake lingered like a shadow, reminding you of the grip he had on your heart—and not in a way that felt safe or loving.

One evening, as you and Sarah sat on the balcony watching the sunset, the sky painted in hues of orange and pink, she turned to you again.

"Y/N, I know it’s hard, but you have to prioritize your happiness. You can’t keep living in this limbo," she said, her voice steady and unwavering.

You looked out at the horizon, the beauty of the moment contrasting sharply with the turmoil inside you.

"I know," you replied, your voice thick with emotion. "But what if I’m wrong? What if he really can change?"

The fear of making the wrong choice loomed large, a specter that haunted your thoughts.

"Change is possible, but it has to come from him, not from you hoping for it," Sarah said gently. "You can’t be the one to fix him. You’re not responsible for his happiness or his growth. You deserve to be with someone who respects you and makes you feel safe."

Her words struck a chord deep within you. You thought back to the last time he had gripped your arm, the way his eyes had darkened, and how you had brushed it off as a moment of frustration.

But now, in the light of day, you could see it for what it was—a warning sign that you had been too afraid to acknowledge.

That night, as you lay in bed, the silence of your room felt deafening. You replayed every moment of your relationship, the good and the bad, and slowly, the scales began to tip.

The holiday seemed to fly by in the blink of an eye, and soon you found yourself stepping into the paddock alongside Sarah and Jake.

As you walked, you could feel the tension in the air; Jake wore a strained smile that didn’t quite reach his eyes, gripping your hand a little too tightly.

“Hey, look at all the fans!” you exclaimed, trying to lighten the mood as you waved enthusiastically at the crowd, signing autographs for those who called out your name.

Sarah, taking a break from her hectic job, had decided to join you, her laughter ringing out like music amidst the bustling atmosphere.

“Isn’t this amazing?” you said, glancing at Sarah, who was snapping pictures with her phone. “I can’t believe how many people came out today!”

She nodded, her eyes sparkling with excitement. “It’s like a mini-celebration! But where’s your boyfriend? He seems a bit off today.”

You shrugged, trying to brush off the concern. “I don’t know, maybe he’s just tired. We haven’t really talked much since we got back.”

You stole a glance at him, who was still smiling, but it felt forced, like he was putting on a show for everyone around.

You made the decision to invite Jake into your driver’s room for a heart-to-heart conversation. As you settled into the familiar space, you turned to him with a gentle concern.

“Hey, are you doing okay?” you asked, your voice soft and inviting.

Jake looked at you, his expression a mix of regret and longing, as he wrapped his arms around your waist, pulling you closer. “I’m alright, really. I’m sorry for how I’ve been acting lately,” he replied, his tone sincere.

In that moment, you felt a rush of warmth; you had missed the comfort of his touch more than you realized.

“Jake, I need to let you know that I have to leave soon,” you murmured, trying to keep the conversation grounded. But he seemed lost in his own thoughts, his gaze intense and filled with desire.

“Why don’t you just quit your job already? I can take care of you, I promise,” he suggested, his voice dripping with temptation.

The idea hung in the air between you, and for a fleeting moment, you felt the pull of his offer.

It was tempting, but the passion you had for Formula 1 was a flame that burned too brightly to extinguish for anyone, even someone as captivating as Jake.

You took a deep breath, weighing your options. “Jake, you know how much this means to me. Formula 1 isn’t just a job; it’s my dream,” you replied, your heart heavy with the conflict.

He stepped back slightly, his expression shifting from desire to disappointment. “I get it, but can’t you see how much I care about you? I want us to be together, and I thought you felt the same way,” he said, frustration creeping into his voice.

You could see the struggle in his eyes, and it pained you to know that your passion for racing was creating a rift between you.

“I do care about you, but I can’t just walk away from everything I’ve worked for,” you insisted, hoping he would understand.

As you stand there, the tension weighs heavily in the air, palpable and thick, as Jake's frustration spills over, his voice tinged with a mix of hurt and desperation.

"But what about me?" he asks, his eyes searching yours for an answer that you know is difficult to provide. "Since you started this job, we haven’t done anything together. All you've been doing is hanging out with that Max boy. Don’t you see it?"

His words cut through the silence, piercing the surface of your mind and forcing you to confront the tangled web of your life that feels all too overwhelming at this moment.

As you gather your thoughts, aware that the job has transformed your priorities and the once-familiar relationship with Jake has shifted, you attempt to articulate your feelings, to bridge the widening chasm of misunderstanding.

"Jake—" you start, your voice tremulous, hoping to weave a delicate thread of connection that can pull you both back to a place of understanding, but he interjects, the intensity of his emotions propelling him forward before you can offer your perspective.

"I’ll show you—don't worry," he mutters, the frustration lacing his tone beginning to dissipate as he suddenly wraps his arms around you, pulling you close in a gesture that is both protective and possessive.

The warmth of his body against yours sends a shiver down your spine, a reminder of the bond you once cherished.

Feeling the urgency of the moment, his lips find yours, a kiss that ignites a flicker of hope amid the turmoil of doubt and fear swirling around you. . . .

▄▀▄▀▄▀▄▀▄▀▄▀▄▀▄▀▄▀▄▀▄▀▄▀▄▀▄▀▄▀▄▀▄▀▄▀▄▀▄▀▄▀▄▀

After the holiday break, you had started to act differently, almost as if a shadow had fallen over their usual camaraderie.

Whenever he approached to nudge her shoulder playfully, she would flinch, a look of surprise crossing her face as if she were bracing for something unpleasant.

It was a stark contrast to the easygoing banter they once shared, and he couldn't help but notice how she had become more withdrawn, often lost in her thoughts, her laughter replaced by a distant gaze.

He believed you were feeling down because the team was struggling to achieve the results they had hoped for.

Typically, his father would reach out to him after a disappointing race, sometimes even resorting to physical punishment if the outcome was particularly disheartening.

It was a routine he had come to accept, thinking it was a common experience shared by many.

However, everything changed when his therapist pointed out that not everyone endured such treatment, which sparked a rebellion within him against his father's harsh ways.

"Why do you always have to be so hard on me?" he had shouted one evening, frustration boiling over.

His father, taken aback, responded with a stern look, "Because I want you to be the best, Max. You need to learn that life isn’t always fair."

But Max felt differently; he wanted to be supported, not punished.

As he pondered your situation, he couldn't help but wonder if you had faced similar challenges.

"Do you have someone in your life who treats you badly?" he asked cautiously, trying to gauge your response.

Your eyes widened at the sudden question before you shook your head, a small smile breaking through the clouds of doubt.

"No, not like that. Everyone is really supportive of me these days."

Max felt a wave of relief wash over him, grateful that you had not been in that cycle of abuse he had been so familiar with.

In many of the recent races, both you and Max found yourselves finishing in the P2 to P4 range, or sometimes not making it to the podium at all, which left the team feeling quite disheartened.

The once-promising season had turned into a series of missed opportunities, and the weight of expectations began to take its toll on everyone involved.

The atmosphere in the garage was thick with tension, and the engineers were working overtime to analyze data and strategize for the next race, but the results were still falling short of what the team had hoped for.

This situation also prompted Max's father, Jos, to plan a visit during the race weekend. He intended to check in on his son and perhaps give him a much-needed reality check, quite literally.

As the race day approached, Jos observed his son engaging in cheerful conversation with you, rather than focusing on the engineers to gather crucial insights, a routine Max typically adhered to before a race.

This deviation from his usual pre-race preparation did not sit well with Jos.

He had always believed that the hours leading up to a race were critical for mental conditioning and strategy formulation. To see Max laughing and joking instead of poring over telemetry data or discussing race strategies with the engineers was concerning for him.

Jos's frustration grew as he watched the interaction unfold. He believed that your presence was a distraction, pulling Max away from the intense focus required for peak performance.

In his eyes, the bond you shared with his son was undermining Max's potential to excel on the track.

He felt that friendships weren't important and they should not come at the expense of Max's dedication to his craft.

Jos was determined to address this issue head-on, convinced that a serious conversation was necessary to realign Max's priorities. . . . .

In the midst of a lively discussion filled with laughter and camaraderie, Jos abruptly interjected, "Max, I need to talk to you right now."

His tone cut through the jovial atmosphere, drawing the attention of both you and his son. The laughter faded, replaced by a sudden stillness as everyone turned to witness the unfolding scene.

Max's expression shifted from joy to disappointment as he glanced at you, yet he managed to offer a reassuring smile before reluctantly following his father away from the group.

"Yes, Father?" Max responded in Dutch, his voice tinged with curiosity and a hint of apprehension. The way he spoke suggested a mix of respect and wariness, as if he were bracing himself for a conversation he knew would be anything but easy.

Jos wasted no time in launching into his concerns, his words spilling out with a sense of urgency.

"You must distance yourself from that girl; she is a distraction that will hinder your performance in the race," he asserted, his tone firm and authoritative, as if he were delivering a decree rather than a request.

The weight of his words hung heavily in the air, a stark contrast to the lightheartedness that had just moments ago enveloped the gathering.

Max, however, was quick to defend you, his loyalty evident in the way he stood a little taller, his brow furrowing in determination. "No, she doesn't distract me, Father. She's my teammate," he stated, his voice steady and resolute.

The conviction in his tone reflected a bond that transcended mere friendship; it was a partnership built on shared goals and mutual respect.

Yet, as he spoke, the tension between father and son thickened, a palpable clash of wills that seemed to reverberate through the quiet space around them.

Jos, sensing the resistance in Max's voice, shifted his approach, employing subtle manipulation to sway his son’s perspective.

"Think about your future, Max. You have so much potential, and I only want what is best for you," he continued, his voice softening slightly, as if trying to appeal to Max's aspirations.

The words were carefully chosen, designed to instill doubt about your influence, to paint you as an obstacle rather than an ally.

Max hesitated, caught between his father's expectations and his own feelings.

The internal struggle was evident on his face, a flicker of uncertainty crossing his features as he grappled with the conflicting loyalties that tugged at his heart.

"It is evident in your results over the weeks, you've been falling off the high scores recently, hardly been able to reach third place because of that girl!" Jos stressed out and Max became quiet, letting those words sink in.

"Max, think about it," Jos continued, his tone shifting to one of persuasion. "You need to focus on your game and not let distractions get in the way. She's not worth it."

Max felt a mix of emotions swirling inside him. He had always admired his father's wisdom, but now he sensed a subtle manipulation at play. Jos was trying to steer him away from his feelings, and deep down, Max knew it.

Yet, the idea of disappointing his father loomed larger than his own desires.

"Okay, Father," Max finally replied, his voice barely above a whisper.

He felt a pang of regret as he agreed, but he couldn't shake the feeling that he was losing a part of himself in the process. As he walked away, he contemplated the choices ahead of him.

Was it worth sacrificing his happiness for the sake of competition?

As he walked away, the sound of his father's footsteps fading behind him, he contemplated the choices ahead of him.

The internal struggle was just beginning, and Max knew he had to find a way to balance his passion for the game with the complexities of his heart.

He thought of you—the woman who had sparked something within him, a light that had ignited a warmth he hadn't been able to feel like Daniel left.

After he began to distance himself from you, he noticed a change in your demeanor.

You seemed more withdrawn, putting on a facade of happiness with a constant smile that didn’t quite reach your eyes. You were hiding behind long-sleeved coats, even in the warm weather, creating a barrier between yourself and the world around you.

The vibrant laughter that once filled the air when you were together had been replaced by a silence that hung heavily between you, punctuated only by the occasional forced chuckle or polite nod.

Max could see the way your shoulders slumped slightly, as if the weight of unspoken words and unshared feelings was pressing down on you.

Your eyes, once bright with enthusiasm and mischief, now seemed clouded, reflecting a deep-seated sadness that you tried so hard to conceal.

He remembered the long pointless conversations, the dreams you both had shared, and the plans that now felt like distant memories. It pained him to witness your struggle, yet he felt powerless to bridge the growing chasm between you.

Despite the guilt that gnawed at him, Max couldn’t help but recognize a shift in his own performance on the racetrack.

He found himself consistently finishing on the podium, a stark contrast to your struggles as you remained trapped within the top ten.

Each trophy he lifted felt heavier than the last, a reminder of the friendship that had once fueled his passion for racing.

He could hear the cheers of the crowd, feel the adrenaline coursing through his veins, but all he could think about was how you used to be there, celebrating alongside him, your face alight with pride and joy.

While he celebrated his achievements, he couldn’t shake the feeling that something important was missing.

The camaraderie they once shared seemed to slip further away with each passing race, leaving him to wonder if the price of success was worth the cost of their connection.

He often found himself glancing over at the empty spot in the pit where you used to stand, your eyes sparkling with encouragement, your voice ringing out with advice that had always kept him grounded.

As the races continued, Max felt a growing urgency to reach out, to break through the walls you had built around yourself.

But his father kept him grounded and not letting that thought come to life anytime soon. . . .

As you maneuver through the winding turns of the racetrack, adrenaline surges through your veins, a heady blend of focus and exhilaration.

"Joseph, what's the gap to Max?" you inquire, your voice steady despite the chaos enveloping you as you glance at the rearview mirror, noticing Charles's fierce pursuit as he falls into your peripheral vision, momentarily eclipsed by your recent strategic overtaking maneuver.

"2.3 seconds in front of you, Y/N," Joseph replies, his tone equally crisp yet slightly strained, hinting at the intensity of the moment.

The hum of the engine, the vibrations of the car, and the distant roar of the crowd blend into a symphony of speed, and as you negotiate the track, your mind sharpens with determination.

You consider your next move with meticulous care, knowing that a split-second decision could alter the course of the race.

Holding tightly to the steering wheel, you then ask, “Do I have permission to take over?”

Pause hangs in the air like a fragile breath, and you can almost anticipate Joseph's reply, especially given the longstanding tradition wherein hesitance often blankets these life-altering decisions.

Sure enough, after a fleeting silence, you prepare for the inevitable response that would echo in your ears like an unwelcome refrain, one you were all too familiar with.

But just as you brace yourself for a “no,” the radio crackles to life again—this time with a tidal wave of unexpected urgency.

"Yes! Y/N? Can you hear me? The team has approved the overtake of Max! Go for it!" Joseph’s voice bursts through with a burst of energy, jolting you from your reverie.

Instinctively, your foot plunges onto the accelerator as you channel every ounce of skill, focus, and ambition into propelling yourself forward.

You swiftly navigate the corner, your car gliding through the air like a bird released from captivity, and in that moment of pure adrenaline, you find yourself eclipsing Max, reclaiming the lead with undeniable ferocity.

As you settle into your newfound position at first place, the tension morphs into an exhilarating electrification coursing through your body.

Max, having momentarily lost his grip on the lead, now battles to fend off Charles and Lando from making any hazardous moves that might threaten your dominion at the front.

In the heat of the moment, the radio blaring with strategic updates fades into the background as your vision narrows solely on the track ahead—you are a race car driver, a gladiator in this battle of speed, and nothing else matters.

The world dissolves into monochrome, your focus unwavering as you grip the wheel like it’s a lifeline.

Distant cheers from the crowd seep through your concentration, yet you silence those voices, drowning out distractions as you become acutely aware of the weight of the race, the dreams that hang delicately in the balance—everything is at stake.

You feel sweat trickling down your temple and a syrupy mix of anticipation and fear soaring through your chest, but as you approach the final laps, triumph struggles to emerge from the depths of your hardwork.

Amidst the exhilarating distractions, your attention sharpens when you catch a faint echo of Joseph’s voice cutting through the chatter. "Y/N! You did it! You won!"

The joyous eruption on the other end floods your senses with disbelief, a tidal wave of emotions crashing over you.

In that electrifying moment, as you maintain your grip on the wheel for the last few seconds, reality begins to wash over you like an exhilarating wave, and the tears you could feel brewing now threaten to spill, your triumph intertwining with your vulnerability.

With the checkered flag waving triumphantly in the air, you ease down on the accelerator, the sensation of victory swelling inside you as you let a muffled cry of delight escape your lips.

You slow your car and finally breathe, releasing all the pent-up energy, as the realization of your success resonates in every fiber of your being.

"You did it, Y/N! You won the grand prix!" Joseph's voice dances through the radio, resonating with an infectious glee.

A burst of laughter escapes your lips, and for the first time, the roar of the crowd—a melodic blend of cheers—warms your heart.

As you roll to a stop, the world around you crescendos into a celebration of your harrowing journey—each twist, each turn, each heartbeat racing in sync with the rhythm of victory.

The moment is surreal, and as you step out of the car, you are not just a racer anymore; you are a triumphant force that turned dreams into reality, and no title could encapsulate the pride swelling within you.

You parked the car in front of the first-place stand, your heart racing as the adrenaline coursed through your veins. Stepping out of the vehicle, you took a moment to absorb the victory that had just unfolded; it was surreal, almost like a scene plucked from your wildest dreams.

You stood on the hood of your car, exhilaration bubbling up inside you as you raised your fists in triumph, thrusting them into the air with a euphoric fist bump that echoed your unrestrained joy.

The cheers of the crowd swirled around you, a chorus of celebration, and for a heartbeat, the entire world felt like it paused in honour of your hard-fought achievement.

The weight of every early morning, every late night, every moment spent honing your driving in the shadows now seemed beautifully light, overshadowed by the sheer thrill of the moment.

As you jumped off the car with a renewed sense of vitality, you sprinted toward your team, their faces lit up with genuine happiness.

It marked a pivotal moment, one where they no longer treated you as fragile or merely a woman in a male-dominated sport; instead, they embraced you like a teammate, a winner.

You felt the warmth of their hugs wrapping around you, their joy infectious in a way that washed away any lingering doubts you had ever held about your place in this fierce and demanding environment.

“I can’t believe we did it!” you exclaimed, looking around at their beaming faces, heart swelling.

Some laughing tears glistening in their eyes, as they crowded around you, lifting you momentarily off your feet, celebrating not only your victory but the growth of a team bound together by perseverance and shared dreams.

Max eventually pulled up in front of the second-place station, his car’s engine rumbling to a soft stop just a few feet away from you. He stepped out, the sunlight catching the edges of his helmet as he removed it, revealing a look of pure delight plastered across his face.

It was a sight that brightened your heart; his genuine smile mirrored your own, a silent acknowledgment of the fierce competition that had just transpired on the track.

You could hardly control the emotions that swelled within you. With an impulsive rush, you charged toward him, unable to contain the joy of your victory.

In a flurry of excitement, you leaped into his arms, a spontaneous act born from the adrenaline still dancing through your body. He caught you effortlessly, his hands cradling your back protectively, and in that moment, the world shrank down to just the two of you.

“I won!" you declared, breathless, your voice a mixture of disbelief and sheer happiness, as if saying it out loud might make the victory feel more real.

A grin split Max's face wider, and you could see the pride sparkling in his eyes. “Yeah, you won! Congratulations!" he echoed, his voice turning melodic with the thrill of your accomplishment.

His embrace tightened around you, and you melted into the moment, filled with a sense of camaraderie and respect that had blossomed between you two over the course of your racing journeys.

As he set you back on your feet, laughter bubbled up once again, infectious and wildly free.

"I hope I didn't catch you off guard with that leap," you admitted, a hint of embarrassment creeping into your voice as you took a sip from your drink.

"Not at all! I’m just thrilled for you," Max replied, his cheeks flushed with excitement as he gave you a friendly pat on the back.

After the interview with the top three winners, you, Max, and Charles settled into the conference room, the atmosphere buzzing with excitement as the race replay flickered on the screen. The tension was palpable as the footage captured the thrilling moments of the competition.

"Wow! That was such a turn!" Charles exclaimed, wiping the sweat from his brow, clearly still feeling the adrenaline from the race.

He was referring to the intense maneuver where he nearly overtook Lando, a moment that had everyone on the edge of their seats.

As the race continued to unfold on the screen, you found yourself lost in thought, your mind racing with the events that had just transpired.

You focused on your breathing, trying to calm the whirlwind of emotions swirling inside you. You had actually won.

Max, sitting beside you, noticed your silence and turned his attention toward you, his eyes filled with concern.

"Hey, are you alright?" he asked softly, breaking the tension in the room. His voice was steady, a comforting presence amidst the chaos of the race replay.

You nodded slowly, appreciating Max's concern but still feeling the weight of the moment. "Yeah, just processing everything," you replied, your voice barely above a whisper.

After the conference wrapped up, the divers were given the freedom to either retreat to their driver’s rooms or celebrate with their teams and families.

However, the atmosphere was tinged with concern. The race winner was notably absent, and everyone had been eagerly anticipating a celebration for your first victory.

But after you dashed out of the conference room in a flurry, you seemed to vanish without a trace.

Everyone, especially Max, who had reached out to congratulate you repeatedly, was waiting, eager for you to join them in the festivities.

Max had noticed your absence almost immediately after the conference ended. The smile that had danced on his lips dimmed when you didn't join the team to celebrate; he frequently glanced toward the driver’s room, a sense of unease gnawing at his gut.

The more he thought about it, the more his concern deepened; it wasn't like you to shy away from such moments of triumph.

As teammates and family began to cheer and revel in the evening's wins, Max made the decision to search for you.

His quest took him to the paddock and then to your garage, but each passing minute only heightened his worries. "Where could you be, Y/N?" he murmured to himself, frustration lacing his voice as he traversed the familiar paths of the circuit, searching desperately for a glimpse of you.

His heart raced with anxiety; he couldn't shake the feeling that something was wrong.

Finally, his gaze landed on the door of your driver's room, slightly ajar, like a whisper beckoning him to enter. Without a second thought, he approached and knocked gently, "Y/N, are you in there?"

Listening intently, he leaned closer to the door and was met with faint whimpers that sent a chill down his spine.

Panic surged through him.

This wasn’t just a moment of celebration for you; it felt like a cry for help, echoing through the cold corridor.

Without waiting for a response, he pushed the door open wider, bracing himself for whatever he might find—though nothing could have prepared him for the sight that met his eyes when the door creaked open.

The scene unfolded before him like a nightmare; your so-called boyfriend stood menacingly above you, his hand raised as if poised to strike, while your frail form displayed clear signs of distress—your face bruised, tears streaming down your cheeks, eyes wide with a mixture of fear and disbelief.

Time seemed to freeze for a moment as he took stock of the situation, the cruel contrast of celebration outside and the terrifying reality inside your room.

"What the hell is going on here?" Max's voice cut through the air, laced with fury as he stepped into the room, instinctively placing himself between you and the looming threat.

In that instant, your boyfriend's grip on your collar slackened, surprise washing over his features as he turned to face Max.

“Stay out of this, Max! This has nothing to do with you,” your boyfriend snarled, his bravado faltering under the sudden scrutiny.

But Max remained steadfast, stepping closer, his presence commanding as he glared at the man who had dared to raise a hand against you.

“You’re wrong. It has everything to do with me. Y/N is my friend, and I won’t let you hurt her,” he replied, his voice steady yet filled with palpable tension.

Your eyes met Max's, a flicker of hope igniting amidst despair, and despite everything, the warmth of that friendship washed over you.

Max's voice echoed through the room, a mix of frustration and urgency. "You need to leave now!" he shouted, his eyes locked onto your boyfriend, who stood there with clenched fists and a scowl that could cut glass.

The tension in the air was palpable, thick enough to slice through. Your boyfriend hesitated, his anger simmering just beneath the surface, but something in Max's tone made him reconsider.

"Fine," he finally muttered, his voice low and filled with resentment. "I’ll go, but this isn’t over."

With that, he stormed out, slamming the door behind him, leaving you and Max in a heavy silence.

“Max, please…” you managed to choke out, your voice hoarse as the fear and pain slowly ebbed. “I just…I just wanted to celebrate, but I didn’t know who I could trust. I thought…”

Your voice faltered as the tears resumed their steady flow. Max's gaze softened as he turned back to you, the protective barrier he had formed in front of you embodying more than just physical defense.

“You can trust me, Y/N,” he said firmly, his expression shifting to one of concern.

With Max's unwavering support behind you, the resolve within you began to build.

“Thank you,” you whispered, your voice trembling, but a hint of strength colored your tone.

1K notes · View notes

raynas-delivery-service · 24 days ago

Text

It's truly astonishing how we're 3 movies deep, and there's still ZERO straight explanation for Robotnik and Stone's relationship.

Like yeah when 1 came out, it was good fun shipping them after the whole "pin yourself to the wall" thing and those of us who saw the potential would've stayed Stobotnik truthers regardless of what direction the following movies took. No one was expecting like... actual canon evidence tho??? In 2 Stone is shown to be visibly depressed when Ivo is gone, draws detailed latte art of their faces with tiny hearts, and has no desires other than to be in his presence once he's back (also the maid outfit lmao). Ivo, despite hating all of humanity, not only lets Stone stick around well after they've left the government, but is allowed to see him at his lowest, SHAVE HIS HEAD, and in general get closer to him than anyone else ever has in his life. (Slight S3 Spoilers but he also literally refers to Stone as "the only person he can trust" 😭, which I reacted totally normal to btw).

That's without even mentioning their natural chemistry (courtesy of Jim and Lee), or the way Stone is so down bad he looks at Ivo like he's hung the stars, or THAT PART in 3 that's basically all the confirmation I need. There's wayyy more here than an average toxic boss/henchman dynamic, and watching this all unfold in real time over the last (almost) 5 years had been such a chaotic delight. It's never not crazy to me how all of this started simply cause the filmmakers decided to give Jim Carrey someone to work off of 🤖🪨❤️

#sonic the hedgehog #stobotnik #sonic movie 3 #dr robotnik #agent stone #ivo robotnik #jimbotnik #sonic 3 #sonic movie #i just think they're neat

934 notes · View notes

sirhamburrger · 17 days ago

Text

teach me, teach me, teach me how to love - rin itoshi x reader

your imagination, now i'm fixated // and i'm dying to learn every inch of you

✧ in which chemistry isn't the only thing he learns from you. ✧ tags/cw: gn!reader, this post is short af, reader is good at chemistry, gets help from rin in english and history, mentions of pda at the end, overall just sweet and sappy ✧ a/n: idk what came over me i just had to do this (i hate memimessage) ig i was thinking about the classic bachira "wedo-ness-day" scene where rin gets so pissed || dividers by @cafekitsune

read as: 1, 2, 3, 4-5, 6-8, 9

end.

bllk masterlist || general masterlist

#blue lock #bllk #blue lock smau #bllk smau #bllk x reader #rin itoshi smau #itoshi rin smau #rin itoshi #itoshi rin #rin itoshi x reader #itoshi rin x reader #rin x reader #kai writes

490 notes · View notes

itsgerges · 4 months ago

Text

Best Regards The Gravitational Waves Reflection In The Solar System (Analytical Study) (Revised) https://app.box.com/s/yx3tx5lsvwy4025p4j3mwfeliwhtka07 or https://app.box.com/s/9wywdejkxqh7x4g791ntf3p3p01kkm8f or https://www.tumblr.com/itsgerges/759715471336570880/the-gravitational-waves-reflection-in-the-solar?source=share or https://gerges2022.livejournal.com/236389.html

Abstract Paper question How Is Planet Velocity Defined? Paper Hypothesis No. (1) The solar system is one energy moves in space and reflects 3 times - the points of the reflection are the planets- as a result- the planets are created depending one each other by this energy reflection. The Explanation Of The Hypothesis No. (1) I- Preface Why do we need to define Planet velocity here? Because Planet velocity definition disproves The Solar System Classical Description. II- The hypothesis Explanation in details 1 The Energy Reflection Definition 2 The Energy Reflection Proves 3 The Energy Reflection Result 4 The Energy Reflection Objective 5 Saturn Creation Depends On Uranus And The Earth Let's explain the previous items in following I- Preface

Why do we need to define Planet velocity before any other discussion in this paper? Because Planet velocity disproves The Solar System Classical Description. The classical description refutation is a great event because the theories depend on it and – that means- more than 12 theories are wrong in the modern physics book Shortly- more than the half of the modern physics book provides imaginary ideas and wrong theories because the solar system classical description is wrong. Let's see examples to explain that clearly Example No. (1) No Planet Moves By The Sun Gravity- Newton is wrong- I have proved this fact since long time- and I explained that- Planet moves by the force caused its creation- means- the planet creation and motion is done by one force only otherwise this planet would be broken- simply – if two forces have effects on the same planet it would be broken- means- the planet moves with its creation force- again No planet moves by the sun gravity- The example shows a gap between the physics book and the solar system facts – Newton imaginary idea is believed by everyone since 400 years! But- the example doesn't show how great the gap is- in fact the shock is coming from The Sun Nuclear Fusion Theory- let's see the next example Example No. (2) The Sun Is Created By The Planets Motions Energies–The Sun Is A Phenomenon Here we can see the gap clearly The solar planets were found in their orbits before the sun creation and the planets were revolving around a point in space (this point has no light) The planet motion produces energy (1/2 mv^2) and this energy is stored in the space in waves form- the planets were revolving around this point for long periods till the stored motion energy in the space be massive energy-

From this massive motion energy the light beam is created (the sun rays is created) The sun rays is created from this energy- that tells why the sun corona temperature is 5 millions Kelvin but the sun surface is 5800 Kelvin- simply- because The Sun Is Not Doing Nuclear Fusion To Produce Its Rays, the rays is created by the planets motions energies– The Sun Rays Show The Great Gap Between The Physics Book And The Facts The wrong description is the reason behind the imaginary ideas and wrong theories in the physics book- one more example- the scientists won Nobel prize in physics for their discovery for the gravitational waves- these scientists told us – the gravitational waves are produced by the sun gravitational field which is NOT FACT– the gravitational waves are produced by Planet motion energy- where the planet moves and produces energy (1/2 mv^2) and the planet can't store its motion energy inside its body otherwise its temperature would be raised for that the planet motion energy is stored in the space In Waves Form- the scientists discovered these waves and they called them gravitational waves!! Let's provide one more example

Example No. (3) The big bang theory tells us the planet creation is done by random process- in details- the theory tells–some planets are suffered from collisions and these collisions changed their diameters and masses- by that we can't know their original diameters and masses by that the current values of these diameters and masses are found by chance and without any geometrical reasons and should be considered random data- For example- Jupiter diameter now is 142984 km but what's this diameter value in the first creation of Jupiter? The big bang theory and all random creation ideas are wrong and nonsense- shortly- I have my planet diameter equation which proves Planet diameter is created based on a geometrical rule- means- for example- Jupiter diameter is created at first as 142984 km and never changed since its creation- if any planet had collision and changed its diameter this collision results would be recorded in this planet motion features- as happened with Mars- Mars original orbit was between Mercury and Venus and Mars had migrated to its current orbit- and Mars had collided with Venus and The Earth in its migration motion- but Mars diameter equation refers frequently to its original orbit features and data- that tells the planet motion provides a record for its history because all data is required for planet motion- by that – all data depends on geometrical rules and no random process is used in it – let's introduce my planet diameter equation in following…. Planet Diameter Equation (v1/v2)= (s/r)= I v = Planet Velocity and 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 tells planet diameter is created based on its velocity –means- Neptune diameter is 49528 km because Neptune velocity is 5.4 km/s The Equation Concept Planet diameter should be a function in its orbital distance –otherwise- this planet would be broken by its motion- the fact is that – The necessary requirement for planet safe motion is to create a function between this planet diameter and its orbital distance BUT- the designer can't create a function has only 2 variables (Planet diameter and its orbital distance)- the function in this case can't be useful because – If this planet changes its orbital distance its diameter would be broken also because the diameter is a direct function in the orbital distance without any other variables -As A Result The designer created the planet diameter as a function in this planet rotation period and the planet rotation period is created as a function in this planet velocity and the planet velocity is created as a function in this planet orbital distance- by that- the function between the planet diameter and its orbital distance is created but the function contains also more variables (rotation period, orbital period and velocity)- by that- if the planet changes its orbital distance- this planet diameter will not be changed but its rotation period, orbital period, and velocity will be changed and the diameter will be saved- NOTICE-Mars is the example for this theory because Mars original orbit was between Mercury and Venus and Mars had migrated from its original orbit to its current one- after Migration Mars changed its motion data but the diameter is saved

NOTICE- Planet diameter equation is very useful to analyze the energy reflection in the solar system because the equation shows the changes in data resulting from the energy reflection- for example- the equation produces the planet orbital inclination-but in Saturn equation- the equation produces the value (0.4) while we know Saturn orbital inclination is 2.5 degrees- the value (0.4) is produced because the energy is reflected in Saturn and that caused effect on the data by that the value (2.5) become (1/2.5) = 0.4- that's why I refer to my planet diameter equation in this discussion because the equation can work as a tool of anatomy which can see clearly what's happening for the energy in each planet- Matter Definition My planet diameter equation provides a new definition for the matter – this definition is found to answer the question- (How Can Planet Velocity And Motion Be Defined Before This Planet Creation?)

What's The Matter And How Is Created? The matter and space are created from the same one energy and both move with the motion of this energy from which they are created- but- the matter creates for itself a distinguish form and moves by different velocity from the space motion (notice the gravitational waves prove the space has motion and not static). This is similar to the sea of water- the space is similar to the sea of water and the matter is similar to a whirlpool (vortex) found on the sea page- The whirlpool (vortex) is created by the sea water and it's carried by the sea water motion- spite of that- the whirlpool is different in its form from the sea waves – also the whirlpool moves by different velocity from the sea waves motion velocity- this example gives explanation for the matter definition- the matter is similar perfectly to the whirlpool on the sea page- it's created by the sea water motion but it has a distinguish form and different velocity from the sea waves- Also The whirlpool dimensions depend on the sea water motion features- for example – we have a whirlpool its diameter is 2 meters, this diameter is formed by the sea water motion features (the water velocity- amount-pressure -……etc) that tells the whirlpool is found later after the sea creation- and the water motion is found before the whirlpool creation- this meaning is a fact for the matter creation and dimensions- the matter dimensions are created based on this matter motion- means- the motion is defined before the matter creation- this is proved strongly by my planet diameter equation- the equation tells (for example) Neptune diameter is 49528 km because Neptune velocity is 5.4 km/s- the whirlpool idea explains how the planet matter data is defined based on its motion- because The original energy was found in motion at first and the planet matter is created from this moving original energy and the planet matter dimensions are defined by this original energy motion features- after the planet creation, the planet moves with this original energy motion means the planet moves this same motion based on which the planet data is created that's why the planet data is in full harmony with the planet motion features. Also the idea shows the planet motion reason- as I proved before- no planet moves by the sun gravity- Newton is wrong- because the planet creation and motion are done by one force only otherwise this planet would be broken if two forces have effects on it Here we see the planet motion reason- the planet moves with the original energy from which this planet is created- What's the original energy? The original energy is one light beam energy- because – the solar planets and their distances are created from one energy and this energy is provided by one light beam –means – the planets are geometrical points found on the same one light beam and the planets move with this light beam motion- By that the planets are similar to carriages in one train and the light beam is this train engine- the light motion causes all planets motions NOTICE - this definition of the matter and planet is very important for our discussion because the paper hypothesis no. (1) tells – the solar system is one energy moves in the space and reflected on some points and these points are the planets- the reflection of energy discussion will show how each planet data and motion depend on the other planet motion by the energy reflection effect- shortly- (The Planet Is A Geometrical Point) this idea is the best one can explain the energy reflection data- by that we can understand how the energy motion and reflection can effect on the planet creation and motion- the energy reflection discussion is found in the paper first hypothesis explanation.

Planet Velocity Definition

Again let's ask ……Why Do We Need To Define The Planet Velocity? ………. Because – the planet velocity definition refutes the solar system classical description- the definition proves the planet is a geometrical point on the moving energy (and refute the classical definition tells – planet is a solid body created independently from the space and other planets) – in fact the planets are created depending on each other – The 9 planets are as 9 knots or snarls on the same one rope or cable – No planet is created independently– also all of them are created by the same one motion and the same one reason- (imagine you have a ladder or stairs is consisted of 9 units- all units are similar and found for the same reason)- the data proves this fact also Planet velocity definition provides a powerful proof against Newton theory of the sun gravity-No Planet Motion Depends On Its Mass- Newton is wrong- the velocity Definition Doesn't Refer To Planet Mass- Also planet velocity definition provides a direct strong proof for the energy reflection in the solar system- also – the velocity definition explains the complex machine behind the planet motion which refutes again the naïve idea of Newton about this motion- The planet velocity definition shows the general design of the solar system where all planets data is defined based on its velocity- means- the planet velocity is defined at first (after the orbit definition) and all other data is defined based on this velocity as we have seen the planet diameter is defined by the rate (v1/v2) by my planet diameter equation and planet orbital distance is defined by the rate (v1/v2)^2 and planet orbital period is defined by the rate (v1/v2)^3- shortly- the motion is the planet life

SHORTLY I refute the solar system classical description and I wanted to put a piece of strong proof in the first pages of my paper to show that the refutation doesn't depend on ideas or logical analysis- but the refutation depends on the contradiction between the physics theories and the planets creation & motion data- If the contradiction is proved that tells the description is wrong because the planets data can NOT be wrong Let's start our discussion How is planet velocity defined? Kelper stated, planet orbit defines its velocity, this rule is proved by the equation (v1/v2)^2=(d2/d1) where (d= planet orbital distance) and (v= planet velocity) BUT How Is The Planet Velocity Defined? And By What Rules? Planet velocity is defined by Three Rules let's see them in following (i) First Rule v1v2 = constant= 322 (my 5th equation)

47.4 km/s (Mercury velocity) x 6.8 km/s (Mercury velocity) =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 velocity) x 2 =322 24.1 km/s (Mars velocity) x 13.1 km/s (Jupiter velocity) =322 (Max error 2%) The rule (v1v2=322) tells the velocities are defined in pairs and not individually, each planet velocity has its own complementary- the rule tells the velocities are reflected on one another- the reflection of energy and data will be studied in details in planet velocity discussion- In this rule we interest for the constant (322)- let's ask- why the constant = 322?

The constant 322 depends on the speed 1.16 million km per second because (1160000 seconds = 322 hours) - Means Mercury (47.4 km/s) moves in 6.8 hours a distance = 1.16 million km and Uranus (6.8 km/s) moves in 47.4 hours a distance = 1.16 million km Shortly -we realize that the constant 322 is produced based on the speed 1.16 million km per second- means- the planets velocities are complementary each other because they are defined as functions in this same speed 1.16 million km per second (This is similar to electron and positron are produced from Gamma ray, The two particles depend on Gamma energy in their masses) Based On This Data I concluded there's a light beam its speed 1.16 million km per second and from this light beam energy the solar system is created- and the planets velocities are defined as functions in this speed 1.16 million km per second and that causes the velocities to be complementary each other- (Please note the speed 1.16 million km per second is proved strongly by other data in my paper specially because the light created the space at first before any planet creation by that all distances in the solar system are created by the energy of this light beam and its speed 1.16 million km per second is registered in the data)

(ii) Second Rule v1v2 = 1 The velocity here uses the solar day (86400 seconds) – let's prove that-

Mercury moves per solar day = 4.095 million km Venus moves per solar day = 3.024 million km The Earth moves per solar day = 2.574 million km The Moon moves per solar day = 2.4 million km Mars moves per solar day = 2.082 million km Jupiter moves per solar day = 1.1318 million km Saturn moves per solar day = 0.838 million km Uranus moves per solar day = 0.5875 million km Neptune moves per solar day = 0.4665 million km Pluto moves per solar day = 0.406 million km AND 0.406 (Pluto velocity) x 2.4 (the moon velocity) = 1 (error 2.5%) 0.4665 (Neptune velocity) x 2.082 (Mars velocity) = 1 (error 2.5%) 0.5875 (Uranus velocity) x 3.024 (Venus velocity)/1.772 = 1 (error 2.5%) 0.838 (Saturn velocity) x 1.1318 (Jupiter velocity) = 1 (error 5%) (1.772 = π^1/2) The second rule tells very similar meaning (v1v2= constant= 1) The data uses the velocities per solar day for that the constant is changed from 322 into 1 but the rule is the same- (v1v2= Constant) I want to say- the rule (v1v2 = Constant) tells a clear idea that (The Velocities Are Reflected On Each Other) this conclusion is simple one (A x 1/A= constant=1) The rule proves the energy is reflected in the solar system and this reflection has effect on the planets data and for that the planets velocities are defined by this energy reflection and the velocities are produced complementary each other as a result. Notice The second rule causes confusion because the complementary player is changed- for example Pluto is complementary with Venus (in the first rule 35 x 4.7 x 2 = 322) but Pluto is complementary with the Earth moon in the second rule (0.406 x 2.4 = 1) that tells the players are changed which is illogical idea- how can we solve this problem? The third rule solves it – let's see this rule in following (iii) Third Rule v1/v2 = 0.8 (based on the planets order) 47.4 km/s (Mercury velocity) x 0.8 = 38 (35 km/s = Venus velocity error 7.25%) 35 km/s (Venus velocity) x 0.8 = 27.78 (The moon velocity) 29.8 km/s (The Earth velocity) x 0.8 = 24.1 (Mars velocity) (error 1%) 24.1 km/s (Mars velocity) x 0.8 = 2 x 9.7 (Saturn velocity) 13.1 km/s (Jupiter velocity) x 0.8 = 2 x 5.4 (Neptune velocity) (error 3%) 6.8 km/s (Uranus velocity) x 0.8 = 5.4 (Neptune velocity) 5.4 km/s (Neptune velocity) x 0.8 = 4.3 (Pluto velocity 4.7 the error 7.25%) Please note The error 7.25 is found by the rate 1.0725 – that means 47.4 km/s (Mercury velocity) x 0.8 = 38 = 1.0725 x 35 km/s (Venus velocity) 5.4 km/s (Neptune velocity) x 0.8 = 4.3= 4.7 km/s (Pluto velocity) / 1.0725 29.8 km/s (Earth velocity) = 27.78 km/s (The moon velocity) x 1.0725 We know the rate 1.0725 is found by Lorentz length contraction effect- and we know this rate has effect on around 40% of all planets data – that's why we see this rate has effect on the planets velocities definition-

Let's remember the question- In the rule (v1v2=322) we found that Pluto is complementary with Venus because 4.7 km/s (Pluto velocity) x 35 km/s (Venus velocity) x 2 = 322 But in the rule (v1v2 =1) we found Pluto is complementary with the moon because 0.406 mkm (Pluto Velocity Daily) x 2.4 mkm (The Moon Velocity Daily) = 1 The question asked – if the planets velocities are defined in pairs complementary each other and not individually how can the players be changed? The answer tells – the planets velocities are rated by (0.8) based on the planets order means – the moon velocity daily 2.4 mkm = Venus velocity daily 3.024 mkm x 0.8 The rate (0.8) defines all planets velocities depend on each other by order-

Now let's see Planet velocity final definition – because- the definition uses three planets velocities together and not only two – let's put that clearly in following- (iv) The Planet Velocity Final Definition (A) 47.4 km/s (Mercury velocity) x 0.8 = 38 km/s (Venus velocity 35 km/s) Venus moves per solar day 3.024 million km -But 1/3.024 = 0.3307 million km = Uranus moves per solar day 0.5875 million km /1.77 (note 1.77 = π^1/2) and (38 = 35 x 1.0725) For that 47.4 km/s (Mercury velocity) x 6.8 km/s (Uranus velocity) = 322 (B) 35 km/s (Venus velocity) x 0.8 = 27.78 km/s (The Moon velocity) The moon moves per solar day 2.4 million km -But 1/2.4 = 0.406 million km = Pluto moves per solar day 0.406 million km For that 35 km/s (Venus velocity) x 4.7 km/s (Pluto velocity) x 2 = 322 (C) 29.8 km/s (The Earth velocity) x 0.8 = 24.1 km/s (Mars velocity) Mars moves per solar day 2.082 million km -But 1/2.082 = 0.4665 million km = Neptune moves per solar day 0.4665 million km For that 29.8 km/s (The Earth velocity) x 5.4 km/s (Neptune velocity) x 2 = 322 (D) 13.1 km/s (Jupiter velocity) x 0.8= 2 x 5.24km/s (Neptune velocity 5.4 km/s error 3%) Neptune moves per solar day 0.4665 million km - But 1/0.4665 = 2.082 million km = Mars moves per solar day 2.082 million km For that 13.1 km/s (Jupiter velocity) x 24.1 km/s (Mars velocity) = 322 Shortly Three planets velocities are defined in each equation- that tells the planet velocity definition is a process more complex than the simple equation (v1v2= constant) Notice The 9 planets velocities total is 176 km/s – if we add the Earth moon velocity (29.8 km/s) the total will be 205.8 km/s The planets velocities are complementary also for this velocity 205.8 km/s – let's see 205.8 km/s = Mercury velocity (47.4 km/s) x Pluto velocity (4.7 km/s) / 1.0725 205.8 km/s = Venus velocity (35 km/s) x Neptune velocity (5.4 km/s) x 1.0725 205.8 km/s = Earth velocity (29.8 km/s) x Uranus velocity (6.8 km/s) 205.8 km/s = Jupiter velocity (13.1 km/s) x Neptune velocity (5.4 km/s) x 3 Mercury velocity = 2 Mars velocity by that Pluto will be used for Mars also Max error (3%) Please Note- Saturn is exceptional because 205.8 km/s = 9.7 km/s (Saturn velocity) x 21.4 Where 21.4 hours = 2 x 10.7 hours (Saturn rotation period) Means- the distance is passed by all planets motions in one hour equal the distance is passed by Saturn in 2 rotation periods (21.4 hours) that tells more analysis is required for Saturn velocity- as we should do later. (v) A Question (Why Is The Rate (0.8) Used To Define Each Planet Velocity Based On Its neighbor?) Kepler stated (Planet orbit defines its velocity) and My planet orbital distance equation proves each planet orbit is defined based on its neighbor – means- my equation uses only 2 neighbor planets orbital distances Here also-Planet velocity is defined based on its neighbor – means- this connection enabled Kepler to conclude his statement (Planet orbit defines its velocity)

But Why The Rate (0.8)?? The rate (0.8) is found by the energy reflection effect on Planets velocities definition, for that we need to analyze the energy reflection process deeply to see how the planet velocity is defined by it - The energy reflection process is discussed deeply in the first hypothesis explanation- let's start its discussion in following…

II- The Hypothesis Explanation In Details Let's remember the paper first hypothesis The solar system is one energy moves in space and reflects 3 times - the points of the reflection are the planets- as a result- the planets are created depending on each other by this energy reflection.

In following we discuss the energy reflection process in details because the planet velocity definition proves the planets data is reflected on each other and we here try to see as deep as possible how this reflection process is done – the discussion is divided into 5 items which are Item No. 1 The Energy Reflection Definition Item No. 2 The Energy Reflection Proves Item No. 3 The Energy Reflection Result Item No. 4 The Energy Reflection Objective Item No. 5 Saturn Creation Depends On Uranus And The Earth Let's start our discussion in following Item No. 1 The Energy Reflection Definition Here we define the reflection of energy – let's do that in following The solar system is one energy- this energy moves through the space- we can imagine this energy as a light beam or electromagnetic wave- and- the data tells this energy is reflected- let's suppose this energy is reflected from the point (A) to the point (B)- now- these points (A and B) are planets in the solar system- That tells, the planet is a point in space on which the energy is reflected- it's difficult to accept such strange idea- BUT The planets data is more strong than our evaluation- we will see that- the planets data is created by the reflection of energy- this fact is proved strongly and doubtless- For that I analyze the reflection of energy process in details because by this process the planets are created and the energy cycle is completed- for that – we examine the reflection of energy deeply - Now- let's define the energy reflection in following (i) The energy is reflected three times in the solar system- from Pluto to Neptune (1st reflection) and from Uranus to Jupiter (2nd reflection) and from Venus to Mars (3rd reflection) The first and second reflections are unified and work together as one reflection only (later will explain why) - by that – the solar system has 2 basic reflections- the reflection in the outer planets and the reflection from Venus and Mars (ii) The reflection of energy is proved strongly because the planets data are changed as a result- let's write these changes in following v What's used as (A) before the reflection will be used as (1/A) after the reflection. v What's used as (a distance) before the reflection will be used as (a period of time) after the reflection v The velocities be squared –the rate (v1/v2) before reflection will be (v1/v2)^2 after the reflection. v The energy direction is changed by the reflection usually v The players of the rates of time are reflected also – These changes are found in all reflections of energy- that's why the proof is powerful and can't be refuted because the planets data shows the reflection process details (iii) Let's see the changes in the planets data generally

(Venus reflection) By this reflection of energy Venus orbital circumference 680 million km will be used as Mars orbital period 687 days and it defines Jupiter orbital period (4331 days = 2π x 687 days) and also Saturn orbital period (10747 days = 4π x 687 days x (1/0.8)) where Uranus orbital inclination (0.8 degrees) creates effect on Saturn data AND Venus Orbital Period 224.7 days be used as 227.9 million km (Mars orbital distance) AND Also the reflection defines the planets diameters by that Venus circumference 38025 km = Mars Circumference 21346.6 km x 1.772 (π=3.14159= 1.772^2) (more data about this reflection is discussed later) (The Outer Planets Reflection) The reflection is done by Jupiter to Uranus, by that, Jupiter orbital circumference 4900 million km will be used as Uranus orbital period 30589 days where (30589 days = 4900 days x 2π and Neptune orbital period 59800 days = 4900 days x 4π and Pluto orbital period 90560 days = 4900 days x 6π Notice- the reflection in the outer planets depends basically on Saturn and it's more complex than this simple data but I put similar data for comparison and later we will discuss the details ALSO The energy reflection at Venus passes above the Earth to Mars- where the Earth moon suffers from the length contraction effect and its motion distance daily is 2.4 mkm = 2.574 mkm (The Earth motion distance daily) / 1.0725 Similar to that The energy reflection at Jupiter passes above Saturn to Uranus – Where Saturn suffers from the length contraction effect because 1433 million km (Saturn orbital distance) x 1.0725 = 2 x 778.6 million km (Jupiter orbital distance) - And- the Earth moon daily displacement is 88000 km and during 10747 days the total be 940 million km=The Earth orbital circumference (where 10747 days = Saturn orbital period) The previous data shows the reflection energy effect generally- it's important because it compares the data in two different groups and proves the data behaviors are similar- that proves these behaviors are caused by the same one cause- But we will analyze each reflection in more details to see how each data is created Item No. 2 The Energy Reflection Proves (a) Venus reflection of energy is discussed in item no. (4), But - Here We Analyze The Energy Reflections In The Outer Planets- There are two reflections in the outer planets (from Neptune to Saturn) and (from Uranus to Jupiter)- let's explain the energy trajectory The energy is sent firstly from Pluto to Neptune and then The energy is reflected from Neptune to Saturn–means- it's one reflection is started by Pluto and finished by Saturn- later the energy is reflected one more time from Uranus to Jupiter- but we have to ask- if the energy was in Saturn orbit why this energy is returned again to Uranus? The reason is–Saturn is created as a result for an interaction between Uranus and the Earth- means- Uranus is Saturn Father- and the energy is got by Saturn sent automatically to Uranus and Uranus reflects this energy to Jupiter- we will discuss the process in details later. AND I put Saturn and Uranus relationship analysis in point No. (5) to prove that Saturn is Created by Uranus effect- (b) Also there's story I have to summarize before the data discussion- Pluto energy is reflected to Neptune – this is the first reflection- means- Neptune should send this same energy to Uranus and then to Saturn and the other planets-BUT – Neptune didn't send the energy to Uranus but kept the energy in Neptune orbit – Uranus could not release the energy from Neptune orbit- for that- Uranus created the interaction with the Earth to create Saturn – Saturn is the warrior created to release the energy from Neptune orbit- by that Saturn released the energy from Neptune orbit and sent it immediately to Uranus and Uranus reflected this energy one more time toward Jupiter (CONT) Gerges Francis Tawdrous +201022532292 Physics Department- Physics & Mathematics Faculty Peoples' Friendship university of Russia – Moscow (2010-2013)

E-mail [email protected] [email protected] ORCID https://orcid.org/0000-0002-1041-7147 VK https://vk.com/id696655587 Tumblr https://www.tumblr.com/blog/itsgerges Livejournal https://gerges2022.livejournal.com/profile Pocket https://getpocket.com/@646g8dZ0p3aX5Ad1bsTr4d9THjA5p6a5b2fX99zd54g221E4bs76eBdtf6aJw5d0?src=navbar box https://app.box.com/s/47fwd0gshir636xt0i3wpso8lvvl8vnv Academia https://rudn.academia.edu/GergesTawadrous publications http://vixra.org/author/gerges_francis_tawdrous Slideshare https://www.slideshare.net/Gergesfrancis

3 notes · View notes