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itsgerges · 8 months ago

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Does The Physicist Vision Contradict The Nature System?

Please read

The Gravitational Waves Reflection Analysis

I study the solar system Geometry since long years- and- I have found the physicist and astronomer can't understand the solar system designer vision– in fact their vision contradict the designer vision- let's prove that in following

The Physicist Vision

The physicist supposes that there's (a unit of building)- by that- the physicist sees the mass (for example) as wall and this wall is consisted of bricks (small similar units) and for that the physicist searched for this (unit) because it's the (unit) by which the wall is building (the mass is building)– this is the physicist thinking direction- he believed there's a small unit by which the great building is built

For that the physicist searched and found the particle and then the particle is divided into Molecules then the Molecule is divided into atoms and the atom is divided into nucleus and electron moves around and the nucleus is divided into proton and Neutron- and the proton is divided into quarks …etc

The physicist searches for the building unit- the unit by which the building is built – or the unit by which the mass is built – for that the physicist divides (any thing) to see its contents till reach to the unit which can be used as the building unit.

The Designer Vision

The designer aims to create integration- as the marriage – male and female- the relationship will cause to give birth for a child

INTEGRATION this is the word inside the designer Mind

No building unit- the marriage answers- because in marriage both (male and female) are required and no one of them better than the other – both work together and give equal effects on the same one process and give together one result- I explain the idea by the marriage because it's easy to understand- I want to put the word (Integration) as the basic concept in the designer mind.

And

I want to explain how the physicist causes fatal error for the research method

While the physicist divides the elements one after one (from matter to particle to molecule to atom to proton to quarks …etc) this division from out into inner till reach to very small unit which he considered the building unit – that causes to destroy the geometrical design of the integration process

Let's return to the marriage- the marriage requires two players (male and female)- they have different bodies and the process give birth for children- Suppose we remove one player what would happen? (where can we find a woman pregnant by herself?)

I want to say- the division from (matter to particle to molecule to atom to proton to quarks …etc) destroys the general geometrical design which uses the integration process- let's give other examples

Example No. (1)

Einstein told us (He can't find slightest meaning for the word SPACE) by that he can't define (what's the space) and also he found the space has no mechanical features because no definition causes these features – this is the physicist vision - Let's see the designer vision

Planet moves and its motion produces energy (1/2 mv^2) and where's the energy? the planet can't store its motion energy inside its body because this energy would raise the planet temperature and no planet temperature is raised by its motion- so- where's the planet motion energy? logically we suppose that- the energy is stored in the space in waves form- means- the planet moves and its motion energy creates waves in the space (as the fish swims in the sea and its motion creates waves in the sea water) similar to that the planet motion produces energy and this energy creates waves in the space- by that we can define the space and conclude the space nature and features- simply we conclude the space has mechanical features because the energy is stored in the space as moving waves- the gravitational waves prove the space has motion- why we can solve the question which Einstein couldn't solve? Because he supposed the planet is independent from the space- the integration concept is not known by him

Notice

The waves are produced by the planet motion energy are the gravitational waves, the paper first hypothesis proves these waves are produced by the planets motions energies and not by the gravitational field also the hypothesis proves the Sun doesn't produce a gravitational field.

Example No. (2)

The scientists stated (The Sun Rays Are Created By The Sun Nuclear Fusion Process)

Why?

Because they think the sun is independent from the planets and each planet is independent from the other– the harmony motion can not prove all players are created from one unified source (one energy) - the integration is not seeing here

But

We can reach to the facts simply- because- the planet moves and produces energy (1/2 mv^2) and this energy is stored in the space in moving waves-

The simple idea tells (the energy can NOT be stored in the space forever) this stored energy must be used- here we see how the sun rays is created- clearly- the Sun Is NOT Doing nuclear fusion to produce its rays- why? because the solar system is very rich in the motion energy and massive motion energy is stored in the space logically this stored energy must be used by some method- based on that- I conclude – the sun rays are produced from this stored energy regardless the production mechanism (means even if I don't know how the sun rays is produced by this energy) I still can confirm that the sun rays is created from the planets motions energies which are stored in the solar system space as moving waves-

I wish I explain the idea clearly -I can discover the space nature and features by planet motion analysis – why? because of the integration- they do one unified job together and each player can be defined by the analysis for the other player.

Notice

My theory tells (The sun rays are created from the gravitational waves and the gravitational waves are produced by the planets motions energies) – that explains why the sun corona temperature is 5 millions Kelvin and the sun surface is 5800 Kelvin because the energy is not come from the sun body.

The Concept Problem -the problem is the eyes – the physicist eyes should see the integration while the integration is growing– let's give example to see this problem

The Earth and its moon move together and they create integrated motion- that shows unified motion by the two planets – but this integration is growing by Venus Motion effect on both planets and by that we have greater integration contains (The Earth- The Moon – Venus) – But Mars also has effect on the three planets – that shows greater integration contains the four planets and of Course Mercury has effect on all and that created greater integration contains the inner planets –

The integration is growing till contain all planets and the Sun together – why?- because it's One Unified Energy behind all players

It needs one genius can understand all these motions and their effects on each other to create one unified motion and one unified effect

The physicist needs very wide eyes can see the great integrated system and all small integrated systems inside it– (something like a great chess board which have hundreds of pieces- if the eyes can see all pieces motions and their effects)

The Concept Use Difficulty-

Why is it hard to discover the integration in the solar system?

Because the geometrical rules are not known and we need to analyze the planets data deeply to discover these rules and see the integration behind it–let's see two examples can help to explain this meaning

Example No. (I)

Why Is The Moon Orbital Apogee Radius = 406000 Km?

The moon daily displacement =88000 km and during 29.53 days (the moon day period) the displacements total be = 2.598 million km = 2π x 413600 km

The data tells us the moon orbital apogee radius should be 413600 km and also it tells, because the moon daily displacement (88000 km) is so long, the moon should revolve around the Earth through this apogee orbit its radius (413600 km) only and can't revolve around the Earth through any more near orbit…

Not Facts

The moon orbital apogee radius =406000 km only and the moon revolves around the Earth through near orbits and can reach to perigee radius (363000 km).

How Can The Moon Do That?

The intelligent moon creates an angle (θ) between its motion direction and its orbit horizontal level by that the real displacement (L) through the orbit be less than (88000 km) because it be (L = 88000 km cos θ), as a result the total displacements be less than (2.598 million km) and that makes the moon orbital apogee radius to be decreased from 413600 km to 406000 km.

We should pay attention for the angle (θ), because this angle controls the moon motion features – where- with the angle (θ) increasing the real displacement (L) be shorter and the moon can revolve around the Earth through more near orbits – but –with the angle (θ) deceasing the real displacement (L) be longer and that pushes the moon far from the Earth to more far orbits.

The moon orbital motion Equation depends on this angle (θ) it tells θ1 = θ0 +1.7

where (θ1) = today angle and (θ0) =yesterday angle

1.7 degrees be used as the moon daily motion degrees for the equation

NOTICE

This example aims to show how to discover the geometrical rules by using the planets data-But the example doesn't provide a picture for the integration because it's a motion done by the moon only- the next example shows the integration system based on which the total solar eclipse is created

Example No. (II)

DATA

DATA NO. (i)

4900 million km = 1.392 million km x 3475 km (The Moon Diameter)

= 449197 km x 10921 km (The Moon Circumference) = 406000 km x 12104 km (Venus Diameter)

= 384000 km x 12756 km (The Earth Diameter)

= 363000 km x2 x 6792 km (Mars Diameter)

Notice

1.392 million km = π x 449197 km (error 1.3%) where

4900 million km = Jupiter Orbital Circumference

1.392 million km = The Sun Diameter

449197 km = Jupiter Circumference

406000 km =The Earth Moon Distance For The Apogee Radius

384000 km =The Moon Orbital Distance

363000 km =The Moon Distance For The Perigee Radius

DATA NO. (ii)

1.392 million km /3475 km = (149.6 million km/ 373500 km) where

149.6 million km = The Earth Orbital Distance

373500 km = The Earth Moon Distance (At The Total Solar Eclipse)

DATA NO. (iii)

Jupiter Venus distance = 671 million km

Venus Orbital Circumference = 680 million km (error 1.3%)

Jupiter Earth Distance = 928 million km

The Earth Orbital Circumference = 940 million km (error 1.3%)

Notice – the distance 928 million km = 149.6 million km + 778.6 million km

(means the distance 928 million km is found when the two planets be on different sides from the sun)

DATA NO. (iv)

Jupiter (13.1 km/s) moves in 10921 seconds a distance 142984 km = Jupiter diameter

And

4900 million km = 449197 km (Jupiter circumference) x 10921 km

4900 million km = (13.1 km/s) x π x (10921 seconds)^2

Discussion

1- Preface

2- The Sun Diameter Definition Rule

3- The Sun Position Analysis

4- Jupiter Orbit Design Uses The Moon Circumference

5- The Sun diameter should be = 400 The Moon diameter

1- Preface

My theory tells (the sun rays are created by the gravitational waves and not by any nuclear fusion process – also- I claim- the gravitational waves are produced by the planets motions energies and not by any gravitational field moreover the sun doesn’t produce a gravitational field) –

Means, The theory tells the sun rays is created by the planets motions energies –

Also that means, The Sun Is Created After All Planets Creation And Motion- let's see the eclipse reason data here

(The Sun Diameter / The Moon Diameter)= (The Earth Orbital Distance / The Earth Moon Distance)

The old question asked why does the diameters rate equal = the distances rate and the wrong answer was always (Pure coincidence)

The fact is that the sun is created after all planets creation and motion and that means the sun diameter is created based on the moon diameter and that tells the sun diameter depends on 2 players which are (the moon diameter) and the number (400) because

The sun diameter 1.392 million km = the moon diameter 3475 km x 400

Here we need to know why the sun diameter is created depending on these two players

2- The Sun Diameter Definition Rule

My planet diameter equation proves the planet diameter is created as a function in its orbital distance- Can the sun diameter be created by a similar method? that necessitates the sun diameter to be a function in some distance- but – what distance? Let's see the next data

The sun diameter 1.392 million km= 449197 km (Jupiter Circumference) x π (1.3%)

The data shows a connection between the sun diameter and Jupiter Circumference-

Can The Sun Position In The Sky Be Defined Based On Jupiter Orbit? Let's examine that

My theory tells the sun is created by the planets motions energies and that means the sun is created after all planets creation and motion– means- while the planets were found and moving in their orbits the sun is created Later and that necessitated to define a position for the sun in the sky

I claim- the sun position is defined based on Jupiter orbit – that can explain the previous data and also the total solar eclipse data

Now – let's ask – Can the sun position in the sky be defined based on Jupiter Orbit? We try to answer this question in the next point

3- The Sun Position Analysis

The space is not static but in motion- means – all points are in motion in the solar system space and the solar system design needs to create a stationary point on which the sun will be created – the stationary point moves by zero motion approximately (in fact it moves by 1 km/s) – but how this point can be found in the space where the space is in motion and no any point is stationary in it? (the space is similar to the sea of water and no stationary point is found in the sea because every thing is in motion)

Means- the creation of the stationary point in the space needs specific procedure– let's see it

The Sun Point Creation Procedure

Before the sun creation, the planets revolved around a point in space (any point in space), the revolution motion creates 2 equal velocities on the revolution both sides - the two velocities are equal in value and opposite in direction- their total be Zero-shortly- the revolution motion creates A Stationary Point in the center of the revolution- that means- the chosen point of space was in motion before the planets revolve around it but when the planets revolve around it this point becomes stationary point and this point motion be Zero approximately (1 km/s)- please note – the point is static and has no motion and its velocity should be Zero but the mathematical calculations of this point can't use the Zero number that's why the velocity be 1 km/s the most low velocity higher than Zero-

Now let's see the data by which the planets starting their revolutions around the sun

DATA NO. (III)

Jupiter Mercury Distance = 721 million km

Mercury Orbital Circumference = 360 million km

Jupiter Venus distance = 671 million km

Venus Orbital Circumference = 680 million km (error 1.3%)

Jupiter Earth Distance = 928 million km

The Earth Orbital Circumference = 940 million km (error 1.3%) (The distance 928 million km is found when the two planets be on different sides from the sun)

THE DATA ANALYSIS

Here we suppose the sun is not created yet and this data defines the sun position before the sun creation- means- we try to define the point of space only

Let's ask -

Where's this required point around which the planets will revolve?

Venus Role

Venus Jupiter distance = 671 million km and Venus used this distance to be the orbital circumference around the required point (680 million km=Venus orbital circumference) (error 1.3%) by that the required point is defined by Venus revolution around it.

Mercury Role

Mercury Jupiter distance = 721 million km and Mercury used (half of) this distance to be the orbital circumference around the required point (360 million km=Mercury orbital circumference)- by that the required point is defined by Venus revolution around it

The Earth Role

The Earth Jupiter distance = 928 million km and The Earth used this distance to be the orbital circumference around the required point (940 million km =The Earth orbital circumference error 1.3%) - by that the required point is defined by Venus revolution around it

We see the four planets defines their orbital circumferences based on Jupiter orbit

Please see deeply this distribution because

The designer put Venus and Mercury on the left side of the sun to define the required point for the sun from this left side and

The designer put The Earth and Its Moon on the right side of the sun to define the required point for the sun from this right side

Means- the required point is defined by four planets – two on each side- and all distances depend on Jupiter orbit and for that these planets orbital circumferences are defined based on Jupiter orbital circumference and by that the sun position is defined based on Jupiter orbit- this is very important fact- because the sun diameter will be defined based on Jupiter orbit-

Now we have answer for the question (why are the 3 planets orbital circumferences equal their distances to Jupiter?) because based on these three distances the sun position is defined- means- the sun position depends on these three planets positions to be defined and these three planets positions depended on Jupiter position and orbit

And that caused the sun diameter to be created as a function in Jupiter orbital circumference as the data proves

Now we know the sun position is defined depending on Jupiter orbit- let's see the relationship between Jupiter orbital circumference and the moon diameter – let's review its data in following

DATA NO. (iv)

Jupiter (13.1 km/s) moves in 10921 seconds a distance 142984 km = Jupiter diameter

And

4900 million km = 449197 km (Jupiter circumference) x 10921 km

4900 million km = (13.1 km/s) x π x (10921 seconds)^2

The Earth moon circumference 10921 km is used by Jupiter motion in different units- it's hard to see the depth of this data but we conclude that the moon circumference 10921 km is produced by some geometrical reason has effect on Jupiter orbit- Means- Jupiter is the parent of the moon and the number 10921 km is belonged to Jupiter

And if we remember the data

1392000 km (The Sun Diameter) = 449197 km (Jupiter Circumference) x π (1.3%)

The previous data shows the sun and the moon diameters are defined by Jupiter motion and orbit and that shows the two values by geometrical rules are related to each other and that causes the proportionality between them we see in the total solar eclipse data –

Notice (1)

1392000 km (the sun diameter) = 406000 km (the planets diameters total) x 3.4

The data proves the sun diameter is rated with the planets diameters total by the rate 3.4 where (3.4 degrees = Venus orbital inclination) and it's related to Pluto orbital inclination (17.2 degrees) because (sin 3.4 = 1/17.2)

Also sin (3.4 deg) x 100733 mkm = 5906 mkm (Pluto orbital distance)

100733 mkm = The Planets Orbital Circumferences Total

This last data is important because it defines Pluto orbital distance means it defines the most far point from the sun in the solar system- means- it's the solar system boundaries- that tells the solar system general design depends on the angle (3.4 degrees) that causes this angle to be used as Venus orbital inclination and caused also to make Pluto orbital inclination as 17.2 degrees (please note the inner planets orbital inclinations total is 17.4 degrees error 1%)- that tells the proportionality of the sun diameter with the planets diameters total depends on the solar system general design.

Notice (2)

37100 mkm (Pluto orbital circumference) - 4900 mkm (Jupiter orbital circumference) = 32200 mkm = (100733 mkm /π)

Where 100733 mkm = The Planets Orbital Circumferences Total

This data tells the solar planets orbital circumferences total depends on Jupiter and Pluto orbital circumferences- this analysis aims to prove that the solar system general design depends on Jupiter orbit- and that means- the sun position definition depends on Jupiter orbit and that causes the sun position definition depend on the solar system general design.

Notice (3)

Light (300000 km/s) moves in 335777 seconds =100733 mkm (The Planets Orbital Circumferences Total)- But -

Jupiter (13.1 km/s) x 335777 seconds = 4.37 million km (The sun circumference)

THE CONCLUSION

The Sun Position Is Defined Depends On Jupiter Orbit (CONT)

Gerges Francis Tawdrous +201022532292

Physics Department- Physics & Mathematics Faculty

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

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lilly-of-the-valle · 4 months ago

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sine cosine and tangent my opps

#sine #cosine #tangent #fuck you trig

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math-journal2 · 6 months ago

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<— Unit 33: Part 2 —>

Practice

#1 ASA

*check work: make sure the biggest angle has the longest side, same for the inverse, small angle = shortest side

#2 ASA

*note: it’s tempted to use the side “b” value to solve for side “a”. Don’t. It leads to less errors if you do it from scratch.

#3 ASS Ambiguous Case

#precalc2 #pc2u33 #trig #law of sines #law of cosines

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hhoneycloves · 5 months ago

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COSINE! Cosine is the Mind, and the trig ratio of. Cosine. He's Cosine.

Cosine governs the X axis of the COORDINATE PLANE. In her ideal world, she's the cosine in cotangent. X/Y. His favorite quadrant of the plane is Q4, where X is positive and Y is negative.

#honeycloves art #cccc #chonnys charming chaos compendium #cccc mind #4C TRIG AU

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stylesloveclub · 2 years ago

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sunshine (part 2)

In which Harry's a little bit nicer, and y/n is very excited to possibly, hopefully, maybe be kissed.

sunshine (part 1)

˙· .° ｡ ˚ ｡ ° . · ˚ ˙ · . ° ｡ ˚ ｡ ° . · ˙ · .° ｡ ˚ ｡ °. · ˙ ‧̍̊

Y/n’s apartment is filled with a bunch of people she doesn’t know. Maddie has a bunch of people over – not really a party, but a fairly large gathering. A few of her school friends, a couple of her co-workers…. nobody that y/n is really close with, though.

That’s why she locked herself in her room, away from the music and the stuffy, smoke-filled air. She said her polite hello and everything, of course! But… she just wasn’t in the mood to hang out with Maddie’s friends. They weren’t really y/n’s type of people, and the smell of weed is giving her a terrible headache.

She bunches up her hair in her fists as she stares at the math problem in front of her. She had been able to do integrals just fine with Harry, but when you add trig into the equation? She’s thoroughly fucked. Not even The Organic Chemistry Tutor could help her work through this problem.

A knock on her door makes her jump. “Come in,” she says politely, though her brows are still furrowed grumpily as she stares at the calculus in front of her.

“S’this room taken?” a deep voice murmurs.

She whips her head around, heart fluttering excitedly in her chest. “Harry,” she says softly. “What are you doing here?”

“Maddie invited Blake,” he says, sitting down on her bed. “And Blake invited me.”

Oh. She should’ve known.

She rolls away from her desk and faces Harry, who’s making himself more than comfortable on her bed, laying down with his head on her pillow. “Smells like shit out there,” he grunts.

“Yeah,” she shrugs. She’s accepted that her apartment will always reek of weed, no matter how hard she tries to get rid of the smell. “Did you smoke anything with them?” she asks.

“No, not in the mood.” Honestly, the only reason he decided to come over with Blake was because he knew that he’d be able to go chill in y/n’s room. Hanging out in Maddie’s smelly apartment was the last thing he wanted to do on a Thursday night, but… he knew y/n would be there, sitting quietly in her room like the good girl she is. “Did you?”

“No.” She fiddles with her fingers. “I– I don’t smoke.”

He snorts. “You don’t smoke but you live with Maddie?” Maddie cannot survive two seconds without her vape. “That doesn’t make sense.”

“The smell of it gives me a headache,” she tries to explain.

“Your apartment literally always smells like weed,” he deadpans.

She blinks. “Yeah…” she trails off quietly. “If I close my door though the smell isn’t that bad.”

Harry rolls his eyes. “What are you working on?” he asks, pointing to the textbook sitting on her desk.

“Um– math.” His lips quirk up, while she pouts. “S’not making sense again.”

“Lemme see,” he says, sitting up. She looks at him for a second, not moving, but when he nods towards her ipad again she scrambles to pick it up and sit next to him on the bed.

“So, what were you going to try and do?” he asks, grabbing her pen. She’s hyper aware of how their thighs are touching, how she can practically feel the heat radiating off his body.

“Um… I feel like I need to use one of the trig rules here but I can’t think of any that would do anything here.”

“Okay you’re right… the issue is that none of your sins or cosins fit any of the rules. But you can break cos^3x down into cos^2x times cosx, right?”

“Okay…” she looks up at him like a lost puppy, still not fully getting it.

“Do you have any trig identities with cos^2x?”

“Um…” she shuffles through her notes, “ cos^2x equals 1 minus sin^2x?”

He nods his head, “yeah. So now that everything is in terms of sin, you can do a u-sub.”

“Oh,” she blinks quietly, staring down at the paper. “Why’s it so easy when you explain it?”

He shrugs, leaning back down onto her bed, “y’just need a lot of practice.”

The bottom of his shirt rises up as he puts his hands behind his head, revealing a pair of black ferns that point towards a yummy v-line. Y/n tries her best not to look, but she’s reminded of the night where she showed up to his apartment to pick up Maddie… how he’d been shirtless, his abdomen so chiseled and firm. The swallows on his collarbones, the butterfly that seemed to jump with every breath. She finds herself getting a bit short of breath as she thinks about all of the things hidden beneath his shirt currently.

That’s the thing about being a touch-deprived, romantic girl like y/n. The littlest things get her going.

He was nice to her once, helped her with her math homework and comforted her when she cried, and now her heart flutters like crazy when she sees him. Just the smallest rise of Harry’s shirt has her spiraling.

She can’t help but notice the way his biceps bulge subtly as he puts his hands behind his head, and finds herself overwhelmed with the fact that this boy – an attractive boy – was just laying in her bed casually.

She knows it’s no big deal for Harry, he’s probably just in here because the living room stinks and he needs to clear his head. But for her, it’s a lot. She never has boys in her room, has never had a romantic interaction with a boy. Hasn’t even been kissed. It’s always just very friendly – getting notes from a guy in her class, joking around with some of Maddie’s friends. She’s never had a boy talk to her any more than that.

Harry, though… Harry comes into her room and talks to her even when there’s a whole party going on outside. He kept her company when she was stranded at his apartment, he took her home and took care of her when she was drunk and emotional. It probably meant nothing to him, but the way he grabbed her ankle and told her to lie down when he was helping her into bed was one of the most tender things she’s ever experienced. He put his hand on her waist, and held her arm while she stumbled, he’d guided her through the door with his hand on the small of her waist.

And when he saw her crying at the library, he came over and talked to her. Comforted her and let her rant about her classes. He’d let her into his room and helped her with her homework, murmured soft praises to her when she got a question right, his arm brushing against hers, or his chest rubbing against her shoulder.

The stupidest little things, that are probably so insignificant for him, have been on her mind for days.

“Hey,” Harry says, snapping her out of her daydreams. She tears her eyes away from his ferns embarrassedly, hoping he didn’t notice. “What are you thinkin’ about?”

She averts her eyes, looking down at her bedsheet. “Um, nothing.”

He quirks his brows. “Nothing?”

“Mhm,” she nods her head innocently.

‘Really?” he asks again, his lip twitching with the slightest hint of amusement, sitting up on his elbows now. He raises himself up so that they’re face to face. He’s not an idiot.

She bites her lip nervously, and her heart stops when Harry’s eyes flicker down to watch. He stares at her with a strange look in his eye… a glimmer in them that she’s only ever read about in books. His eyebrows furrow as though he’s deep in thought, eyes still glued to her lips.

She wonders if she’s hallucinating when he leans in.

She thought she was being silly for starting to feel things for him – that she was just being classic y/n, crushing on a guy even though she knows she’s too shy to ever make a move. Now, with how close he is, she can see every freckle on his tan skin, every lash that frames his bright green eyes. She breathes with a tight chest, swallowing thickly as her eyes flicker between his, wide and curious. His eyes still haven’t left her lips.

Her heart stutters as his large hand makes its way to her thigh, his palm warm and smooth, gently grazing her skin. He unconsciously inches closer and closer, incapable of pulling his eyes away from her mouth.

He wets his bottom lip with his tongue, a force of habit, and finally looks her in the eye. His irises have turned a dark green, pupils dilated, and his breathing has deepened. She has no idea what’s going on in his head, but he looks serious. Deep in thought. His hand still rests on her thigh, the contact sending sparks of electricity all over her body, especially when his fingers gently start to trail upwards.

Her eyes flutter shut as she tries to take deep, calm breaths, but he’s gotten so close that she can feel the puff of his breathing against her lips, inhaling his every exhale. It makes her lightheaded. He’s so close… so, so close…

A loud pounding on the door makes y/n jump away from him.

Her eyes are blown out when she jerks them open, her heart pounding harshly with anticipation that’s been left unsatisfied. “Who is it?” she calls out with a shaky voice.

Harry hasn’t moved an inch. He sits there and stares at her, hand still on her thigh.

“Is Harry in there?” Maddie yells. “Blake is ready to go.”

He brings a hand up and tugs on her bottom lip with his thumb, then watches it bounce back into place, hypnotizing himself with the sight. Y/n, unable to get any words out, sits there and watches him as he stares at her lips.

“Hellooo?” Maddie obnoxiously yells again.

Harry’s nose flares and he shuts his eyes, frustratedly pulling himself away from y/n. She says nothing, still in a daze, watching as he leaves her bed. He stands and runs a hair through his messy curls, before heading towards the door and opening it. Maddie stands in front of the door with her fist raised, ready to knock on the door again.

“Calm down,” he says, eyeing her coldly. Maddie rolls her eyes and walks away to tell Blake that she found Harry.

He turns around for a moment and glances at y/n. “See ya,” he says.

She blinks, her hand coming up to touch her lips, searching for some confirmation that this was real and she hadn’t imagined it. “Bye,” she nearly whispers, breathless.

The door shuts with a click and she finds herself alone with her thoughts. Her math homework sits abandoned on her bed, and will probably remain untouched for the rest of the night.

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Finally, y/n has Harry all to herself.

She’d been dancing around him all night, constantly catching his eye from across the room in a game of cat and mouse. He watched her from the corner of the room he was stationed in with his dark eyes, a teasing smirk on his face. He knew what she was doing – trying to distract him. It was working.

He watched her as she mingled and talked, watched as she sipped on her drink, watched as she weaved her way through the passes of people in her apartment, pushing past the hot bodies and sweaty skin until she disappeared in her room.

He followed her in, less than a minute later.

She hears him walk into the room, the sound of him turning the lock and his heavy footsteps approaching her. A shiver runs down her spine when his hands grab her shoulders from behind, goosebumps rising on her arms almost instantaneously. His firm front pushes against her back, toned stomach pressed against the curve of spine.

His fingers are warm and gentle on her shoulders, comforting yet teasing at the same time. He doesn’t hold her firmly – his featherlight touch more tantalizing than any other form of contact. These light, delicate brushes of his skin keep her on her toes, never knowing what to expect next. She holds her breath as his fingers travel from her shoulders, down the length of her arms.

Suddenly, she feels his lips against her ear. She can’t help the soft, aroused breath that leaves her as his lips skim the shell of her ear. He chuckles, low and taunting, and she can feel the deep reverberations of his chest against her back.

“I’ve been waiting f’this,” he murmurs softly. His warm breath tickles her ear, sending waves of pleasure straight down to her core, and his hands have migrated from her arms to her hips now. He grips them, fingers digging into the soft flesh there, and pulls her back, grinding her into his front. She swallows a whimper down, eyes fluttering shut. A hard bulge presses against her ass, and she can’t resist the urge to press back on it, wriggle her hips even though Harry’s holding her still. “You’ve been teasing me…” he presses a kiss right underneath her earlobe. “Playing all innocent when I know you’re actually filthy.” Another kiss, and another kiss, trailing his lips down the curve of her neck.

She lets out a pathetic, shaky whimper, and it makes him chuckle tauntingly. “Your head is just filled with dirty thoughts, isn’t it?” Her knees go weak as he wraps a hand around her throat, tilting her head to the side so that he can look at her. “Bet you’re just dying for me to fuck you.”

Her eyes are wide and round, and her entire body turns into jelly. The only reason she’s standing right now is because Harry’s holding her up. She can’t get any words out, pathetically wrapped around his finger. She looks up at him with a pleading gaze, begging him to do something… anything…

The sound of her 8 AM alarm yanks her straight out of dreamland.

Her eyes are bleary as she frantically looks around her bed, gathering her bearings. She has to triple check that Harry isn’t anywhere in her room – looking at every corner and patting around her sheets as well – before she can confirm that it was all a dream.

Oh gosh. This is like the third time this week!

She doesn’t mean to be having these dreams. It's a rather embarrassing situation for her and she honest to god would much rather just read a couple of steamy romance books about fictional vampires to get the horniness out of her system, instead of having repeated wet dreams about a very real Harry.

They make her feel icky because, like– isn’t it a bit disrespectful to be having such dirty thoughts about someone who’s just been helping her with her math homework and potentially also kissing her had they not been interrupted? Like what are the boundaries there? You can’t really ask someone for consent to having wet dreams about them… but it’s not like she was consenting to those dreams either! She can’t control what her subconscious mind decides to stir up for her nightly dream!

She tries to logic it out – how would she feel if Harry was having wet dreams about her? Well… actually the thought of it makes her a little bit excited, cos that would mean he likes her, right? Ugh, no, she’s getting distracted!

It’s all very typical horny virgin behavior. Ever since her almost kiss with Harry, her mind has been in shambles. Her first issue is trying to wrap her head around the entire thing – had Harry actually wanted to kiss her? She hadn’t made that up, right?

She’s replayed the night a hundred times in her head. Remembers exactly how his hand felt on her thigh, how he’d stared at her lips, how their eyes had fluttered shut, how their noses brushed… all the things she’s read about in her books! All the ingredients for a first kiss!

How tragic that it’d been interrupted. She thinks that’s why her brain has been overly active this past week – her subconscious has been trying to fulfill the insatisfaction she felt when she jumped away from Harry, just seconds before their lips touched. It feels like she’s been edged over and over again and been denied an orgasm five times – but the orgasm is her first kiss and she’s being edged by Maddie, who stole that kiss away by knocking on her door!

She flops around in her bed frustratedly, smushing her face into her pillow with a sad groan. What if Harry doesn’t wanna kiss her the next time he sees her? What if this was a one time opportunity? She doesn’t want to sound desperate… but she really wanted to kiss Harry! She’d be really sad if it was just a whim of the moment kinda thing.

But also… if it wasn’t just a one time thing… if he did actually want to kiss her… well how was she gonna end up in the situation to be kissed by him again?

She’s thinking about this way too hard, way too early in the morning. And she’s uncomfortably wet from her dream.

She needs to get herself sorted out.

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The chair in front of y/n screeches loudly as it’s pulled from under the table she’s sitting at. She jumps at the sound of it, having been too engrossed in her book to be aware of what’s going on around her. When she looks up, she finds Harry standing at her tiny table in the campus coffee shop.

“Can I sit here?” he asks, his jaw tight. He’s wearing a gray Kendrick Lamar hoodie with the words DAMN. written in bold font across the front, his curly hair messily hidden underneath. All the other tables in the shop were taken (it tends to get pretty busy at noonish when everyone needs somewhere to sit and study), and Harry needs somewhere to sit before his next lecture.

She nods, eyes wide like a baby sheep. It’s quite jarring to just randomly see the guy you’ve been having sexy dreams about – especially for someone like y/n who apparently can’t be normal about having a crush or having an almost first kiss. She hopes she’s acting normal enough to not raise any suspicion.

Trying to not get distracted by his green eyes and pretty pink lips, y/n looks down at the table, but finds herself instead staring at Harry’s hands. He has nice hands, she thinks to herself. The cross tattoo on his left hand compliments his tan skin nicely, and he has these thick knuckles that she just wants to run her fingers over. In one of his hands he holds a coffee cup, and even though she and him both got a medium sized coffee, his drink looks smaller, dwarfed in his massive hands. His thumb is fingering the lid of his drink mindlessly, and she remembers how that same thumb had touched her lips just over a week ago… how he’d tugged on her bottom lip and hypnotized himself with the sight of it bouncing back into place. And while she’s on that train of thought, she can’t help but remember how his hands portrayed such a significant role in her dream last night. Hadn’t she imagined them being wrapped around her throat–?

Harry clears his throat. Y/n glows with heat. She has absolutely no capability of being normal around him. “Sorry, what?” She hadn’t heard a word he’d said in the past minute, too caught up in her own thoughts.

He smirks. Is she always this distracted? “Just asked how it’s going.”

“Oh! Oh, yeah– good, I’m good,” she closes the book, folding the corner of the page she’s on as a bookmark. “How about you?”

He shrugs. “Just got out of class. Needed a coffee.”

“What’d you get?”

“Just a black coffee.”

She can’t stop herself from wrinkling her nose, “Ew.”

He quirks a brow, “Well what’d you get?” “Vanilla latte with oat milk.” Yeah. She would be an oat milk girl.

Considering their recent frequency in seeing each other and his newfound… fondness towards her, he doesn’t find it difficult to start picking and prodding at her, getting to know her. He realizes Blake was right – she wasn’t a super duper shy girl, she probably had just been scared of him. Once he started talking to her and smiling every once in a while, it seems like she loosened up. What used to be painfully awkward conversations have now become free flowing and casual.

He picks up the book she was reading and reads the cover. “Book Lovers by Emily Henry. Awfully fitting for you.”

She furrows her brow, already offended. She hates it when people make fun of her books – especially boys who make fun of her for reading romance. “What’s that supposed to mean?”

“You’re a book lover, aren’t you? Can never find you without your nose in a book.”

She relaxes. “Oh… yeah,” a soft chuckle escapes her. “Yeah, I guess I’m a book lover.”

“You think I’d like this one?” he asks, flipping through the first few pages.

“Um… maybe.” She can’t imagine Harry being a huge fan of her soft romance books. “Are you a reader?”

“God, no,” he puts the book down. “Not smart enough for that.”

Her jaw drops. “You are totally smart, Harry! Way smarter than me!” she exclaims.

“M’just good at math,” he shrugs, “You’re little miss smartie, with your color coded notes. Reading your books for fun.”

She grows shy. Part of her thought that Harry thought she was stupid – not the over-emotional-girl-who-cries-too-much kind of stupid, but rather the kind of stupid that makes you wonder how she even got into this school because she’s doing so bad in math.

It was a massive hit to her girlboss mentality when she had to ask Harry for help, and even though Harry never actually made her feel dumb when answering her questions… she just had this mean voice in the back of her head that constantly nagged her, convincing her that Harry thought she was a stupid girl who should just give up and drop out. And ignoring that voice is really hard, so… it was just nice to hear that he didn’t think she was a stupid little baby. It made that mean voice in her head shut up.

“Um… by the way. My next calc midterm is next Friday. I was wondering if, um…” she tucks her hair behind her ear nervously.

He fills in the rest for her. “Do you want to revise together this weekend?”

“If it’s not too much trouble,” she says bashfully. “Your tutoring is super helpful.”

“You can come over on Saturday,” he sips on his coffee. “No trouble.”

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“Is this right?” Y/n shows her work to Harry, and he nods. They’re both on his bed, except Harry’s lying down with his head on a pillow, scrolling through tiktok, while y/n’s hunched over her ipad. She’s been doing practice problems for the past three hours, asking Harry for help every once in a while. That's how it’s been most of the night – her study session is mostly just him checking her work to make sure she’s not doing anything funky and giving her hints if she’s stuck.

She’s studied a lot in the past two weeks and luckily doesn’t need Harry to be guiding her through every problem, which makes her really happy. And she’s only gotten a couple of the practice problems wrong! Some of them were particularly tricky and had her stumped, but that’s why she has Harry. He helped her out of roadblocks and kept her motivated. Without him here, she probably would’ve given up after the first question that she didn’t know how to solve.

“You should take a break,” he says.

She’d refused to take any breaks since she got here – determined to finish the practice test that her professor had posted while she had Harry next to her to help. Now that she finished all the problems, she locks her ipad and puts it on Harry’s bedside table. She leans back on one of Harry’s pillows and copies Harry, holding her phone above her face. Except instead of scrolling through tiktok, she opens up her kindle app and starts reading.

He sees the tiny font on her screen from the corner of his eye. “Reading?” he asks.

“Mhm,” she shuffles around on his bed, getting comfortable.

He thinks it’s kind of cute that she’s always reading. “Is it the same one as last time? Book Lovers?”

“No, I finished that one yesterday! This is by the same author though. S’called Beach Read.”

“What’s it about?” he turns off his own phone and sits up, turning to look down at y/n. Her hair is splayed across his pillows, and her eyes glimmer softly in his bedroom lighting.

She feels a little shy describing one of her favorite books to Harry – she’s often been ridiculed by her friends for being so lovey dovey and reading her silly romance books. But he seemed genuine when he asked. “Um– there are these two writers. The girl writes romance and the guy writes like these serious fiction books. And they’re kinda rivals.”

He hums. “Let me read a little bit,” he looks down at the screen of her phone. “I tightened my thighs around the sides of his body–” he reads aloud, before she yanks her phone out of his sight.

“No!” she yelps, turning her phone off and practically throwing it across the room. “You are not allowed to read it!”

He laughs, a fully amused belly laugh, and the sound is beautiful but she doesn’t allow herself to revel in it due to her embarrassment. “What are you reading?” he giggles.

“Oh my gosh,” she hides her face in her hands.

“Didn’t expect you to be reading such dirty stories,” he teases, “I thought you were a good girl.”

“It’s not all dirty!” she defends herself. “It’s– it’s sweet! It’s a love story… it’s romantic.” Her voice gets quiet near the end.

Harry’s laughter bubbles down and he’s left with a smirk on his face, while y/n lays in front of him, an embarrassed pout on her face. “M’only teasing,” he says as he reaches a hand out to rest on her thigh, not wanting her to look so sad. “Read whatever you want. Seems like a cute book, maybe I should pick it up, hm?”

Her mind goes a little blank when his hand meets her thigh, his palm warming her skin once more – just like that night he’d almost kissed her. “Y-yeah, you might like it,” she clears her throat. “S’one of my favorites.”

That same look glazes over Harry’s eyes – that dark look, as if he’s deep in thought.

She swallows thickly. Could this be it? Her second chance at a kiss with Harry?

She pushes herself up on her elbows, more alert. Her palms feel sweaty and she finds her fingers nervously toying with his comforter. A million thoughts are racing in her head as she searches Harry’s eyes, flickering back and forth, trying to see what he might be thinking of. He’s so hard to read. She feels like she’s drowning in his eyes.

Almost as if he can read her thoughts, he leans forwards. She hopes she doesn’t look like an over-eager puppy, but her eyes light up and practically beg him to come closer, to just kiss her! He smiles to himself a bit, and obliges.

With y/n laying on his bed, propped up by her elbows, and Harry already having been sat up on the bed, he doesn’t need to move that much closer for their faces to be aligned. He’s leaning over her, one hand holding him up, while the other hand comes up to her cheek.

She gasps when his large palm comes up to cup her face, his palm on her jaw and fingers sliding into her hair. He inches closer and closer, his eyes fluttering shut when his nose brushes against hers ever so lightly. She can feel the puff of his breathing against her lips, breathing in each of his exhales as she tries to stay calm. She forces her eyes shut, her entire body alive with butterflies.

He wets his bottom lip with his tongue, a force of habit, and nudges his nose against hers. She tilts her head to the side. He teases her for a second, gives her the chance to pull away by just grazing their lips together teasingly, and feels her sharp intake of breath at the contact. He can’t help but smirk against her lips.

With her eyes closed, she’s hyper aware of how it feels. The way his curls brush against her face… the warmth of his palm as he tilts her head upwards… the wetness of his lips as he finally… connects them… in a kiss.

This was it. Her first kiss.

There’s not one thought in her head, a stark contrast to how she’d spent countless sleepless nights overthinking the mechanics of kissing someone. She’d always worried that she’d mess it up, that she’d freeze and wouldn’t know what to do.

But falling into the gentle caress of Harry’s lips is easy. Her nerves spill, her muscles relax, and she just lets herself melt against Harry’s lips. He suckles on her bottom lip gently, folds their lips together, pulls away with soft clicks just to reattach a second later. She sighs dreamily into his mouth and lets herself fall back into the bed, her head against his pillow. He doesn’t let their lips disconnect, following her down and climbing on top of her so that one of his legs is stationed between her thighs.

She wonders if all kisses are this magnificent, or if it’s just Harry. Is it normal to feel your heart stuttering in your chest, or feel electricity flowing through your veins at just the touch of someone’s lips? Would she always lean her face into the palm of his hand, and let herself relax in the bliss of feeling his lips against hers?

It’s wonderful – a head-spinning, heart-fluttering, electrifying kiss.

Harry’s hand that isn’t holding himself up comes down to rest on her thigh, goosebumps rising under his touch. His kisses start to grow more pressured, inhaling sharply and breathing heavily against her, tongue licking at the seam of her lips eagerly. His nose bends against her face as he tilts his head to the side, eyebrows furrowed in concentration as he tastes the sweet chapstick on her lips. Her skin is warm and soft and plushy underneath his touch, and her lips are addictive.

He uses his grip on her thigh to hike her leg up, fitting his hips between hers and sliding his hand up and down her leg tantalizingly. He can feel her losing her breath, so he forces himself off of her lips and starts kissing down her neck. He skims his lips down, presses wet, hot kisses on her throat, his every breath making her core clench.

She squeezes her eyes shut, eyes rolling into the back of her head, and takes heavy breaths, chest rising and falling shakily. Her hands come up to grab onto him – just hold onto him in any way – and the first thing her hands land on are his biceps. His firm, toned biceps, that are flexing as he hovers above her. In an effort to feel more grounded, she squeezes her fingers, but it just ends up making her even more lightheaded because god he’s so strong and muscular and he’s kissing her right now!

She’s overwhelmed and her head is spinning and it feels like she’s in a dream, an amazing dream that feels so good and that she never wants to end – she can smell his aftershave and his shampoo and his overall yummy boy smell, and her lips are tingling with the aftermath of his kiss. She’d always imagined what it would be like to have her neck kissed and sucked on by a boy and now that it’s happening it’s better than she could’ve ever imagined, and she’s so sensitive, and it’s just different to have a real person touching you and kissing you all over, especially someone that she’s majorly attracted to and–

Harry presses his hips into her center and, wow, if it isn't the most arousing thing she’s ever experienced. Excitement and anticipation fill her veins… but then a trickle of doubt starts to filter in. She’d only just had her first kiss, was she ready to go any further than that?

‘H-Harry,” she says, but it’s more of a moan because his fingers squeeze her hips and he’s kissing right underneath her earlobe right now and it’s sending shivers down all over her body. “M-maybe we should stop.”

“Hm?” He pulls away from where he was buried in her neck, his eyes blown out and lips slicked with a mix of their spit.

“I-I’m not ready to have sex with you, if that’s what you want.”

“That’s okay,” he says, licking his lips. “I could just eat you out.”

And, god, if that doesn’t make her whimper. “I– no, I um…” she stammers over herself.

He smiles. “What is it?” he murmurs, an amused lilt to his voice.

“I… I haven’t done any of… that.” She swallows, looking at him nervously. Her heart, which had once been racing with excitement, now pounds with apprehension. This is the first time she’s been in this position and she’s feeling so vulnerable.

It’s extremely scary and nerve-wracking and Harry’s silence is not doing anything to help her feel better.

“You’re a virgin?” he asks after a beat.

She nods. She feels insecure under his gaze, and even though she’s fully clothed, she feels totally exposed.

He laughs. “Are you really?” he asks again.

Her eyes flash with hurt. She just shared something extremely intimate with him, shared her very first kiss with him… and he was laughing at her?

She feels her heart drop, and her cheeks flame with insecurity.

“Um–" she swallows around the lump developing in her throat. "I should go,” she says, barely over a whisper. She puts her hands on his chest and pushes him away, sliding out from underneath him and climbing out of his bed. Grabbing her ipad, she shoves it into her backpack, along with her notes that were scattered along his desk and her phone lying at the foot of his bed. Her cheeks burn hot and her heart is aching in her chest.

“What?” He doesn’t challenge her when she pushes him away, but he stares at her with his eyebrows furrowed, confused at the sudden mood shift. “What happened?”

She doesn’t answer. Her throat is hurting, the painful lump a tell-tale sign of the tears getting ready to fall.

“Y/n?” he asks again, getting off his bed and walking towards her. All amusement has left his face, brows furrowed in a concerned manner. She shrugs him off when he approaches her.

“Don’t.” She feels embarrassed, her mind only filled with insecurity. He was making fun of her for being a virgin, teasing her. As if she wasn’t already embarrassed enough about it herself.

She’d planned on calling Maddie to come pick her up when she was ready to go, but it doesn’t matter anymore. She leaves his room hastily, before any of the tears can fall, and nearly runs out of his apartment.

She’ll walk home.

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OMG!!! HOPE U GUYS LIKED ITTTTTT HEHEHEHE :-) part 3 is up on my patreon already and will come to tumblr next saturday (augsut 5) pleeeeaaaase lmk what u think and give her a rb and a comment i LOVE U GUYS SO SO MUCH!!!!

sunshine (part 3) - in which y/n just wants to get this whole virginity thing out of the way, and Harry needs to grovel a bit before she forgives him.

sunshine masterlist

#harry #harry fic #harry smut #harry styles fic #harry styles smut #harry styles fanfic #harry x reader #harry styles x reader #harry styles #harry styles writing #fic rec #harry fic rec #harry styles fic rec

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i-suggest-murder · 5 months ago

Text

no context smash or pass

For clarification I mean the trig ratios sine and cosine

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be-co-me · 2 years ago

Text

Anonymous

Miya Atsumu

1.9k Words

Summary: Homework help proves to be more useful with a cute tutor.

...

Some days college was hard, but the first week of the semester, you didn't think you would be struggling as much as you were. You sat at your desk, nearly at the sixth hour of trying to figure out physics. A lot of it was math. Your worst subject. You struggled with even some of the simplest parts of it.

You decided to take a small break, grabbing your phone and leaning back in your desk chair. You opened ChitChat, an app that many college students around you and the world used. It essentially allowed you to talk and post with people anonymously within a five mile radius of you. You scrolled the usual content that others posted before posting about your struggles with physics.

This physics class is going to be the death of me.

Once it was posted, you scrolled a bit longer, reading some of the threads about the drama going on around the school. There was always something with one of the fraternities or sororities going on, or more like a person in them.

Eventually, your focus returned to your homework, until you heard your phone ding.

New comment on your post, view now!

You sat back once more, picking up your phone and opening the app.

Anon: Which physics course are you in?

You: The first one :'( I'm struggling hard.

Anon: Wait till you take the second one. The end is rough.

You: Sounds like I'll be crying a lot next semester then lol

Anon: Well, let me help. Which part are you having trouble with?

You: We're going over trig right now.

Anon: The math is the hardest part. Give me an example problem and I'll see if I can help you understand how to solve it.

You eyed your homework for the problem that you least understood. Maybe if you could understand how to do the hardest problem you could understand the easiest parts, which most of the other problems seemed to be.

You: The hypotenuse is 6 and the adjacent is 5, find the cosine.

Anon: Remember SOHCAHTOA? Sin= Opposite over Hypotenuse and so on so forth?

You didn't know what he was talking about. What was this abbreviation? You remembered a lot of weird ones or songs you learned to remember things, like the quadratic formula and pythagorean theorem, but never one for trigonometry.

You: I do not. Never learned it. Please elaborate.

Anon: Okay, so the CAH is Cosine= Adjacent over Hypotenuse and the TOA is Tangent= Opposite over Adjacent. Remember that, it's crucial.

You: Got it.

Anon: Now, you need to find the cosine, so you need the CAH part. Your cosine equals your adjacent over the hypotenuse, so 5 over 6. Which is 0.83 in decimal form. Take your calculator and press the cos-1 button and enter 0.83 in the parentheses and close it, then press enter. What'd you get?

You did as he said, eyeing the problem one more time to make sure you told him what it was correctly.

You: 33.56 was my answer.

Anon: And it's the correct one. Congrats, now you know the basics of trigonometry. Those rules are so important to knowing what to do. If you need more help add me on Snap. My username is tsumu_rice_&_volley.

You instantly changed to Snap and added him. You had an idea as to who it was and when he added you back and sent you a picture composed with a selfie of him holding his own homework reading "Miya Atsumu", you instantly knew you were correct.

The volleyball team captain. And one of the most well known fraternity members of the school. All the girls sought after him. You never imagined he'd be good at school, but then again how would he stay in it if he wasn't? And volleyball too.

You viewed yourself in the camera, making sure you looked decent, sending a selfie back with your own homework. He responded with one back, the caption reading,

Need help with anymore of those questions?

You could only laugh. At yourself and maybe at how kinda cute the setter was. Your brain wandered off to if there was a chance he would ever like you. There were so many other people he had the option of dating if he wanted to.

Is all of them an acceptable answer?

You sent back. You eyed the paper, none of the answers becoming any easier to you. You wished your professor would explain things a little better, and the online platform you did lessons and homework on wasn't helpful even one bit. He sent a picture back and you opened it.

Could you meet in the library? Maybe I can explain it better in person.

You pondered on if you wanted to go or not. It was very cold outside and you were holed away in warmth of your dorm room. On the other hand this homework was due the next day and you had 49 other problems to get through that you couldn't begin to understand on your own, therefore you opted to meet with him. You snapped a quick picture.

If it's not too much trouble then sure! But I'm buying you a coffee at the cafe. No questions asked.

You got up from the warmth of your desk and the heater pushed into the corner of the floor underneath it, turning it off and putting on a cozy outfit. You packed your backpack up and began your trek to the library/cafe.

You received a Snap from him as you walked, opening it.

I'm here in the corner. It's void of people in here, so I should be pretty easy to find.

His pictures were cute. You were glad he sent his Snap and not some other generic messaging app to talk on. You got to see him along with it. It made your heart leap a little bit when you saw the picture.

Almost there!

You responded, shoving your phone into your jacket pocket as you opened the door to go inside. You wiped the snow off of yourself and walked into the main study area. You looked around for him and met his eyes, him waving you down. You walked towards him.

"Well, I guess I should introduce myself properly. Hi Anon, I'm Atsumu." he said, sticking his hand out.

"And I'm (Y/N)." you responded, shaking his hand with your gloved one. You set your bag down and shrugged your winter attire off.

"So coffee? My treat for you helping me." you said. He nodded, standing up. You walked over to the cafe with him, pulling your wallet out. You eyed the menu for a little while before deciding on a brown sugar oat milk cold brew. He chose an iced matcha latte. You paid for the drinks and stood to the side, waiting for them to be made.

"It sure is dead in here. I didn't expect it to be with the first week of school and all." he said, breaking the ice and starting up a conversation.

"I know what you mean. Maybe everyone thinks it's too cold to go out. I don't have many friends here or I'd be in here studying with them all the time, I just don't wanna be alone in here. It would be kind of awkward." you responded, the barista handing the drinks to you. You handed him his own.

"I get that. I don't have wifi at my dorm yet. I'm in the new building so they haven't set it up. I've got no choice so I kinda got past the awkward part." he chuckled. You made your way back to the table and sat down.

"We even get this huge whiteboard all to ourselves to do as much trigonometry as we desire." he said, pointing out the whiteboard in the corner. Almost all study areas in the school had a whiteboard or, new as of that semester, a large tablet to do work on.

He began to explain the next homework problem you had, eyeing all of the erased pencil and light evidence of wrong answers on the paper. He stood and drew a problem on the whiteboard, prompting you to answer as he wrote down what you responded to his questions. You took your calculator and entered what you had come up with, the correct answer popping up. You smiled as you finally began to understand.

"Alright, I'm gonna take a problem for sine, cosine, and tangent each and put them up here. I want you to solve them on your own." he said, picking up your homework packet and rummaging through the pages to find one of each problem.

Once he was done, he sat back down, working on what seemed to be a literature essay. You took a while trying to make sure every detail was correct, typing into your calculator to get an answer occasionally. Once you were confident your answers and your work underneath each triangular model was correct, you turned around.

"Alright, finished." you said. He looked up from his laptop, setting down his latte and standing to review your work. You sat down, watching him as he carefully reviewed your writing. He leaned over the table and took your calculator, typing in what you hoped was your correct work on each problem. You sipped on your coffee as he reviewed.

"All correct! Good job! Do you think you're okay to finish them up on your own?" he asked. You nodded.

"Ask me if you have any questions." he said, sitting back down across from you. You nodded once more, beginning to work on the packet once more.

After thirty minutes of doing problems and typing into your calculator, you finally finished. You set the calculator down and stretched your arms, eyeing your now empty coffee cup.

"Finished?" he asked, looking up. You nodded, your eyes looking up to meet his own.

"Let me see it." he said, motioning with his hand for you to give it to him. He eyed the packet over, typing in a few problems from each page to make sure they were right.

"You did good! All the ones I put in are correct so I'm sure you did well on everything else." he said, handing the packet back to you. You packed it into it's respectful folder where it would sit until your class the following day.

"How about you? What have you been typing up over there?" you asked.

"Just reviewing this essay. Can you believe we had to do an essay the first week of school? Unbelievable." he said, shaking his head in disapointment. You chuckled in response. That was a little much of the teacher. You'd take note so you knew not to take that teacher's class in the future.

The two of you talked until the library hours were over. You packed your things and put your winter attire back on, ready to walk out.

"I printed a paper off. Can you grab it for me please?" he asked you nodded, walking across the library to grab it. You stood in front of the printer, grabbing the slightly warm paper off of it. You turned around to wave it at him, but he was gone.

You frowned slightly, turning the paper over.

Let's make this a weekly thing so you don't have to study alone. Here's my number. You better text me! :P XX-XXXX-XXXX. -Anonymous

#haikyuu #haikyuu!!#haikyū!!#haikyu x you #haikyuu x you #haikyuu imagines #haikyuu x reader #haikyuu scenarios #miya atsumu #atsumu x reader #atsumu x y/n #hq #hq x reader #hq fluff

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er-cryptid · 2 years ago

Text

Common Triangle Formulas

Pythagorean Theorem r^2 = x^2 + y^2

Sine sinθ = opposite / hypotenuse sinθ = y / r

Cosine cosθ = adjacent / hypotenuse cosθ = x / r

Tangent tanθ = opposite / adjacent tanθ = y / x

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itsgerges · 8 months ago

Text

Best Regards

The Gravitational Waves Reflection Analysis

Basic Critic Against The Physics Book

It's the main problem I found in the solar system Geometry- the Physicist sees something but the designer sees another thing– these are two different visions for the same solar system- that answers (Why Are So Many Theories In The Physics Book Just Imaginary Ideas And Not Facts?)– let's discuss this problem

The Physicist Vision

The Designer Vision

The designer aims to create integration- as the marriage – male and female- the relationship will cause to give birth for a child

INTEGRATION this is the word inside the designer Mind

And

I want to explain how the physicist causes fatal error for the research method

Example No. (1)

Notice

Example No. (2)

The scientists stated (The Sun Rays Are Created By The Sun Nuclear Fusion Process)

Why?

But

We can reach to the facts simply- because- the planet moves and produces energy (1/2 mv^2) and this energy is stored in the space in moving waves-

Notice The paper second hypothesis tells (the sun rays is created by the gravitational waves motions and the gravitational waves are produced by the planets motions energies, means the sun rays is created from the planets motions energies total) the hypothesis is discussed and proved in the paper abstract and discussion

The Concept Problem -the problem is the eyes – the physicist eyes should see the integration while the integration is growing– let's give example to see this problem

The integration is growing till contain all planets and the Sun together – why?- because it's One Unified Energy behind all players

It needs one genius can understand all these motions and their effects on each other to create one unified motion and one unified effect

The Concept Use Difficulty-

Why is it hard to discover the integration in the solar system?

Because the geometrical rules are not known and by that we don't know what effect is produced by this integration – the paper hypotheses provide examples to explain that.

PAPER FIRST HYPOTHESIS

Paper first hypothesis

The gravitational waves are produced by the planets motions energies and not by the gravitational field (Moreover the sun is not producing a gravitational field) and

The gravitational waves are reflected three times in the solar system (from Pluto and Neptune to Saturn) and (From Uranus to Jupiter) and (from Venus to Mars) –

The gravitational waves reflection causes changes in the planets data- and these changes are repeated with each reflection- means- these changes are found by rules because it's repeated with each reflection clearly- that shows the planets use similar behaviors to create their data which proves one reason causes to create all this data

Also- the wave energy reflection causes to square the wave velocity – the velocity square is the most important feature of the energy reflection because it enables the waves to move by speed of light- that explains how the gravitational waves can move by speed of light in the solar system- the motion by speed of light is produced only by the wave energy reflection (and without the reflection this motion can't be done)

Paper 1st hypothesis (The objective of the hypothesis)

I prove that the gravitational waves are produced by the planets motions energies and these waves are reflected in the solar system three time and the reflection of the wave energy causes to square the wave velocity (the velocity squaring is the important feature I prove in the paper because the light beam is reflected but its speed is NOT squared and that means the wave velocity squaring is feature of the space) and it's very important to prove the wave velocity is squared by the reflection because this process enables the waves to move by speed of light and that explains how the gravitational waves can move by speed of light – as this new article states

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

The article tells, the gravitational waves can move by speed of light and can produce a light beam- here I explain how the gravitational waves can move by speed of light (please note the article still believes the gravitational waves are produced by the gravitational field – I refuse this idea – the gravitational waves are produced by the planets motions energies but the article states that the gravitational waves can move by speed of light and can produce a light beam and I accept this idea and I explain and prove how the gravitational waves can move by speed of light)

Paper 1st hypothesis Proof (The Proving Method)

I compare between the planets data in the three reflections of the wave- I put the planets data in comparison to each other for each reflection to prove the planets use similar behaviors to define their data and this similar behavior proves one force (or one reason) is found behind- and this one reason is the wave energy reflection which causes to create all this data –

The wave energy reflection effect on the solar system design (A Summary)

The reflections cause defined changes in the planets data – and

The most important change is (the wave velocity square) – and this velocity squaring is very important because it enable the gravitational waves to move by speed of light – the motion by speed of light is very effective on the solar system design because it defines the planets distribution between the sun and Pluto– this fact is explained in point no. (**)

Paper 1st hypothesis Explanation and Proof Discussion

The explanation is discussed in two parts

1ST PART

I- Preface

II- The Comparison

III- The explanation of the wave energy reflection effect on the solar system design

2nd PART

The Gravitational Waves Reflection Detailed Discussion

(Paper 1st hypothesis Explanation) 1ST PART

I- Preface

(1)

Planet Motion Energy Analysis

Planet motion produces energy (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 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

(2)

These Waves Are The Gravitational Waves (My Hypothesis)

Mans- the waves are produced by the planets motions energies- these waves are the gravitational waves- it's my paper 1st hypothesis- the gravitational waves are not produced by the gravitational field (moreover the sun doesn't produce a gravitational field) instead the gravitational waves are produced by the planets motions energies

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 and the Earth revolve around the sun together for that the moon velocity is considered equal the Earth velocity relative to (the sun) –

The 1st 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 – the gravitational waves are produced by the planets motions energies and NOT by the gravitational field because there's NO Gravitational field.

(3)

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

(i)

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-

(ii)

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 structure 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.

(iii)

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-

(iv)

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 (1) 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

Example (2) Saturn orbital distance (1433)^2= 4 x 778.6 x 655

d= 1433 million km = Saturn Orbital Distance

d0= 778.6 million km = Jupiter Orbital Distance

655million km=The Distance Between Saturn And Jupiter Saturn Depends On Jupiter

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-

(v)

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 paper abstract- 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 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

(4)

The Energy Reflection Trajectory

Let's remember what we know till now

(a)

Planet motion produces energy (1/2 mv^2) and this energy creates waves in the space and each wave moves by its planet velocity- these waves move toward Pluto (perpendicular on the revolution direction) and in Pluto orbit these waves are unified into one unified wave moves by velocity = the planets velocities total = 205.8 km/s

Means- while the planets revolve around the sun in their orbits by their velocities- there's one unified wave revolves around the sun moving by 205.8 km/s and this unified wave revolves around The Sun In Pluto Orbit-this unified wave is The Gravitational Wave

Now- this unified wave is reflected from Pluto to Venus orbit- Means- the unified wave is reflected and sent from Pluto to Neptune to the next planets till reach Venus

The unified wave is reflected three times in the solar system

(from Pluto and Neptune to Saturn) and

(from Uranus and Jupiter) and

(from Venus to Mars)

With each reflection of the wave defined changes are done for the planets data

But let's refer to the general design behind these three reflections in following

(b)

We remember this 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-

My hypothesis tells (the reflection of energy causes to square the wave velocity)

Let's put the ideas beside one another to see the general design

The gravitational waves can move by speed of light AND can produce a light beam – How?? if the motion is done by speed of light (C=300000 km/s) how can this motion produce a light beam? Because the light beam is produced from the value (C^2 = squared speed of light) – here we see the energy reflection effect- the wave moves by speed of light and when this wave is reflected its velocity is squared and produced the value (C^2 = squared speed of light) from which the light beam is created-

Means

The machine needs one reflection to change the speed from (speed of light C=30000 km/s to the value C^2 =squared speed of light) and by that the light beam is created

Now – let's ask -

How can the wave moves by speed of light?

We remember- the one unified wave (the gravitational wave) moves in Pluto orbit with velocity 205.8 km/s – how can this gravitational wave moves by speed of light?

By another reflection of energy – let's see that in following

300000 km/s = (205.8 km/s)^2 x 7.1

This equation tells

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 gravitational 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)

Here we see clearly that

The machine needs one energy reflection only to accelerate the wave velocity from 205.8 km/s to move by speed of light (C=300000 km/s)

And

The machine needs one more reflection only to change the wave speed from the speed of light (C=300000 km/s) to (C^2 =squared speed of light) by which the light beam is created

Shortly -the machine needs only two reflections of energy to produce the light beam from the gravitational waves motions

Now – let's ask– Why Are There Three Reflections Of Energy In The Solar System? If The Machine Needs Just Two Reflections Why The Machine Uses Three Reflections?

Because

Pluto reflected the energy toward Neptune but Neptune didn't send the energy to Uranus instead Neptune captured and energy and used it for its orbit and by that the energy be stored in Neptune orbit can didn't reach to Uranus- this effect of Neptune motion caused great problem in the solar system- in that time Saturn was not created yet- and Uranus couldn't release the energy from Neptune orbit for that Uranus made an interaction with the Earth and by this interaction Saturn is created for that Saturn is a planet its father is Uranus and its mother is the Earth- Saturn move depends on Uranus and the Earth motions- and -Saturn released the energy from Neptune orbit – for that – the first reflection is from Neptune to Saturn – that's why I call this reflection (from Pluto and Neptune to Saturn) because it’s the energy of Pluto but it's captured in Neptune orbit and Saturn released the energy from Neptune orbit (The 1st reflection of energy) and Saturn sent the energy immediately to Uranus and Uranus reflected the energy to Jupiter (The 2nd reflection of energy) and Jupiter sent the energy to Venus and Venus reflected the energy to Mars (The 3rd reflection of energy)- Now – we understand that – Neptune effect caused to reflect the energy one more time – if Neptune is not found in the solar system the energy would be reflected two times only and they will be enough to produce the light beam

(c)

Please note- the two reflections in the outer planets are done to produce a result of one reflection only and for that the two reflections are complementary one another as we will discuss- and – the solar system general design depends only on two reflections- means- spite they are three reflections and we will see in details each reflection effect but the solar system general design depends on two reflections because the third reflection is found because of Neptune negative effect- means- it's found only for repair the negative effect and if Neptune negative effect is removed this 3rd reflection will be removed for that the design depends on 2 reflections only- discussed later

(5)

Planet Definition

(A)

The physics book defines the planet as (Planet is solid body created independently from the space and the other planets)–if so- how can the gravitational waves reflection have effects on the planets data??

My definition for the planet is

Planet is a geometrical point carried on the moving energy (or Planet is a geometrical point found on a light beam) – let's explain this definition in following

The matter and space both are created from the same one energy- means

The planets matters and their distances both are created from the same one energy- the matter and space move depending on the motion of this energy from which they are created-means- the matter isn't moving by the mass gravity – Newton is wrong- the matter moves by the motion of the energy from which the matter is created-

Based on this idea

The space is similar to the sea of water- and the matter is similar to a whirlpool (vortex) is found on the sea page- the matter creates for itself a geometrical frame (a distinguished form from the space) and moves by a different velocity from the space motion- as the whirlpool (vortex) on the sea page- it's created by the sea water but it has a distinguish form from the sea waves and it moves by a different velocity from the sea waves- this explanation shows how the moving energy can effect on the matter creation data- for example- we have a whirlpool (vortex) its diameter is 2 meters how is this whirlpool created? and why does its diameter equal = 2 meters? The diameter is created as a result for the water motion velocity, pressure, amount and motion angle and many other features of (the moving water)- the moving water creates this whirlpool with diameter 2 meters and as long as the water motion is not changed this diameter will not be changed also-

Let's give another example

The energy motion is similar to the blood motion in a creature body- suppose- we examine now a liver of human - the blood motion causes this liver to work perfectly but if the blood motion is changed that would cause changes for the liver cells and job – suppose the blood have some poison the liver will be dead- suppose the pressure is raised- I want to say- the liver is a piece of body (matter) but it depends on the blood motion and this blood motion defines this liver dimensions and data-

Shortly–the matter is similar to a muscle in a creature- the muscle may be so strong as a rock but it depends on the blood motion (similar to that the matter is found depending on the motion of energy from which this matter is created)

That explains how the gravitational waves reflection have effects on the planets data- still the planet is a solid body and the wave is a wave- the wave can be reflected but the solid body can NOT be reflected spite of that the planets data is reflected one another because the reflected waves have effects on the moving energy by which this planet (solid body) is created-

(B)

We should see the depth of this new definition-

The definition tells us

The matter (planet) is created by energy and the matter moves with this energy- means- this energy is the mother of this matter- this energy created the matter and caused this matter motion-BUT- this definition tells- the matter motion is defined before the matter creation- means- Planet motion is defined before this planet creation- How can that be possible? Because –

The energy is found alone in motion (the sea water was in motion) and the energy created the matter and this matter dimensions and data is defined based on the energy motion features (as discussed before- the whirlpool "vortex" is created with diameter 2 meters and this diameter is defined by the water motion features "velocity- pressure- angle- amount …etc") by that the matter dimensions are defined by the mother energy motion features - AND after the matter creation, the matter moves with the mother energy- by that- the created matter moves the same motion based on which this matter dimensions and data is defined- that explains how the planet motion is defined before the planet creation-

This fact is proved by my planet diameter equation because it proves strongly that the planet diameter is created based on its velocity- means- the equation proves – for example – Neptune diameter is 49528 km because Neptune velocity is 5.4 km/s and Neptune velocity is defined before Neptune diameter- let's remember this equation

My Planet Diameter Equation (v1/v2)= (s/r)= I

v = Planet Velocity

r = Planet Diameter

s= Planet Rotation Periods Number In Its Orbital Period

I= Planet Orbital Inclination (example, 1.8 degrees be produced as a rate 1.8)

v2, s, r and I are belonged to one planet and v1 is belonged to another planet

The planet (v1) is defined by test the minimum error

Earth Equation uses Neptune velocity

Mars Equation uses Pluto velocity

Jupiter Equation uses the Earth moon velocity

Saturn Equation uses Mars velocity

Uranus Equation uses Neptune velocity (As Earth)

Neptune Equation uses Saturn velocity

Pluto Equation uses the Earth moon velocity (As Jupiter)

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 Concept (A Summary)

Planet diameter should be a function in its orbital distance –otherwise- this planet would be broken by its motion- BUT- the designer can't create a function has only 2 variables (Planet diameter and its orbital distance)- 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 Planet diameter and its orbital distance is created but also it contains many variables (rotation period, orbital period and velocity)- by that- if a Planet changes its orbital distance- this planet orbital period, and velocity and rotation period would be changed but its diameter will be saved-

(C)

The previous explanation helps us to see how the planet is created- also we remember Kepler rule (Planet Orbit Defines Its Velocity)

The orbit is created at first and the orbit defines the motion velocity and the planet diameter is created based on this velocity –means- the space is created before the matter creation- Shortly- The planet orbit is created (from the mother energy) before this planet creation and the planet is created later (by this energy motion features) and the planet data is defined based on this motion features and the planet moves after Creation with this mother energy motion- and– in case any planet after creation changes its orbit the planet motion data be changed but its creation data is saved- we should note that the space must be created based on a geometrical design-means- the solar system space (all orbits) is designed based on one geometrical design before any planet creation

(D)

The planet is a geometrical point on the mother energy and moves with it –Or

The planet is a geometrical point on the same light beam and moves with it

That tells

The solar planets are geometrical points found on the same one light beam and move with this light beam motion

By that- the planets are similar to carriages in one train –and the light beam (the mother energy) is the engine of this train- the light moves and causes all planets motions (as the sea water moves and causes all ships motions)

Here we conclude that the planets motions are similar to the chess board motions because it depends on geometrical rules in all details- that's why the analysis is so useful because it can show the geometrical design found by the planets motions integration.

(E)

The planet definition answers the question

If The Gravitational Waves Are Reflected Why This Reflection Have Effects On The Planets Data?

Because the waves reflection causes to define the energy motion direction and by that the planets data is changed and effected by the moving energy through these planets-

The effects on the planets data is very useful because it proves the reflection is a fact as we discussed later

II- The Comparison

The gravitational waves are reflected in the solar system three times

(From Neptune to Saturn) This Is The First Reflection

(From Uranus to Jupiter) This Is The Second Reflection

(From Venus to Mars) This Is The Third Reflection

Here we compare among the data of these planets- the comparison provides 7 groups of data in each group we compare the planets data because I want to prove that the planets use similar behaviors to produce their data – means- this all data is created based on geometrical rules which proves that there's one reason caused to create all this data and this reason is the gravitational waves reflection- In the comparison I start by Venus reflection (the 3rd one) then Uranus reflection (the 2nd one) and Neptune reflection (1st one) because Venus is very simple data and can be understood easily-

The Data Changes

The gravitational waves reflection causes basic changes in the planets data let's refer to these changes in following

What's used as (A) before the reflection will be used as (1/A) after the reflection.

What's used as (a distance) before the reflection will be used as (a period of time) after the reflection

The velocities be squared –the rate (v1/v2) before reflection will be (v1/v2)^2 after the reflection.

The energy direction is changed by the reflection

The players of the rates of time are reflected also –

Notice – the gravitational waves reflection needs three planets –as we have discussed- the 1st reflection (from Neptune to Saturn) and between them Uranus – also the 2nd reflection (from Uranus to Jupiter) and between them Saturn– and also the 3rd reflection (from Venus to Mars) and between them The Earth– that shows three planets are used in each reflection- the middle planet is effected also by the wave reflection as we will see in the data discussion – shortly – No reflection can be done by two neighbors planets -

These changes are done with each reflection for the gravitational waves- the planets data proves this fact as we will see in the comparison of the data and the detailed analysis for the wave reflection.

Group Data No (I)

(1)

The gravitational waves are reflected from Venus to Mars – For that

Venus orbital circumference 680 mkm is Changed Into Mars orbital period 687 days

And

687 days x 2π = 4331 days (Jupiter orbital period)

687 days x 4π = 10747 days (Saturn orbital period) x 0.8

687 days x 6π x 2 = 25920 years (The Precession Cycle)

(2)

The gravitational waves are reflected from Uranus to Jupiter– For That

Jupiter orbital circumference 4900mkm is Changed Into The period4900 days

And

4900 days x 2π = 30589 days (Uranus orbital period)

4900 days x 4π = 59800 days (Neptune orbital period) (error 3%)

4900 days x 6π = 90560 days (Pluto orbital period) (error 2%)

(3)

The gravitational waves are reflected from Neptune to Saturn–

BUT

The distance 1433 mkm is still a distance And

(1410 mkm = Pluto Neptune Distance)

1433 mkm = Mars orbital circumference

1433 mkm x 2π = 9010 mkm (Saturn Orbital Circumference)

1433 mkm x 4π = 18048 mkm (Uranus Orbital Circumference)

1433 days x 8π = 37100 days (Pluto orbital Circumference) (error 2.5%)

Discussion

(1)

The data shows the following

The Gravitational Wave Reflection From Venus To Mars Defines Mars, Jupiter And Saturn Orbital Periods

(Saturn orbital period is effected by the rate 0.8 we should discuss later)

The Gravitational Wave Reflection From Uranus To Jupiter Defines Uranus, Neptune And Pluto Orbital Periods

The Gravitational Wave Reflection From Neptune To Saturn Defines Saturn, Uranus, Neptune And Pluto Orbital Circumference

This data proved my planet definition (the planets are geometrical points carried by the same one energy- or- the planets are geometrical points found on the same one light beam- and the planets move with this light beam motion- and the planets are created depending on each other and No planet is independent from the others in its creation and motion) – means- the planets are similar to whirlpools (vortex) found on the sea water page- we can imagine many whirlpools (vortex) are found on the same one sea and they are near to each other- this picture is very similar to the planets nature- that explains how the reflection of energy for one time can define the orbital periods for three planets (or 4 planets) together-

Here we imagine there are 4 whirlpools (vortex) on the sea page near to each other and then one strong wave of water passed through these 4 whirlpools (vortex), and this water wave motion causes effects on the 4 whirlpools-

This information is so important because one motion only (one wave reflection) can cause to define three or four planets data that proves strongly the planets Can NOT be independent neither in Creation Nor in motion- the planets are created and moving depends on each other because all of them are created from the same one energy and they move with this same energy motion-

NOTICE Let's imagine we have 4 whirlpools (vortex) on the sea page near to each other and one strong water wave passes through these 4 whirlpools (vortex) - now – suppose we put some red color on this strong water wave- what would happen? The water color will be red and the red water will pass through these 4 whirlpools (vortex)

We pay attention here because one reflection of energy can define the orbital periods of three planets – Means – all of them must be dependent on this reflected energy.

That tells the planets are NOT independent but they are dependent on the mother energy from which they are created and that caused they to be dependent on each other –

Now let's analyze each reflection individually

(1) The Third Reflection (The Wave Is Reflected From Venus To Mars)

224.7 days (Venus orbital period) is changed into 227.9 mkm (Mars orbital distance)

AND-

680 mkm (Venus Orbital Circumference) is changed into 687 days (Mars orbital period)- (max error 1.5%) –

As the rule tells (what's used as distance before the reflection be used as a period of time after the reflection and vice versa)

The orbital periods definition

687 days x 2π = 4331 days (Jupiter orbital period)

687 days x 4π = 10747 days (Saturn orbital period) x 0.8

687 days x 6π x 2 = 25920 years (The Precession Cycle)

We don't discuss the precession cycle here

(Saturn orbital period is effected by the rate 0.8 we should discuss later)

The data shows, the planets orbital periods are defined by the rates (2π, 4π, 6π)

It's not clear yet why the design uses these rates to define the planets orbital periods but this is the rule we will see it in the other two reflections of energy.

The important notice here tells that- the gravitational wave reflection for one time defines 3 planets orbital periods – this fact is proved strongly by the data and it disproves the wrong idea tells (Planet is created independently from the other planets)

(2) The Second Reflection (The Wave Is Reflected From Uranus To Jupiter)

Here we have a clear problem – let's see the data

Jupiter orbital circumference 4900 mkm is Changed Into The period 4900 days

And

4900 days x 2π = 30589 days (Uranus orbital period)

4900 days x 4π = 59800 days (Neptune orbital period) (error 3%)

4900 days x 6π = 90560 days (Pluto orbital period) (error 2%)

We see clearly, the data distribution is typical to the previous data of the third reflection- let's compare them

Venus orbital circumference 680 mkm is Changed Into Mars orbital period 687 days

Jupiter orbital circumference 4900mkm is Changed Into The period 4900 days

687 days x 2π = 4331 days (Jupiter orbital period)

4900 days x 2π = 30589 days (Uranus orbital period)

687 days x 4π = 10747 days (Saturn orbital period) x 0.8

4900 days x 4π = 59800 days (Neptune orbital period) (error 3%)

4900 days x 6π = 90560 days (Pluto orbital period) (error 2%)

The comparison shows clearly the data is almost typical- by that- we have to suppose- the gravitational wave is reflected from Jupiter to Uranus- It is NOT Fact–because

The gravitational wave is reflected from Uranus to Jupiter (and then to Venus) – we see clearly the problem where the data distribution is reversed the wave reflection direction-

Notice - please note clearly that – we deal with one gravitational wave only- there are NOT three gravitational wave and each wave is reflected in one reflection- it's NOT Fact – the fact is that- it's one gravitational wave reflected three times in the solar system- the comparison next data proves this fact and gives no area for any doubt-

It's one gravitational wave sent from Pluto to Neptune and reflected to Saturn then this same wave is sent from Saturn to Uranus and Uranus reflected the same wave to Jupiter and Jupiter sent the same wave to Venus and Venus reflected the same wave to Mars- One Gravitational Wave moves through all these planets

The Conclusion

The planets data is distributed in the reversed direction for the reflected energy- the energy is reflected from Uranus to Jupiter but the data is distributed from Jupiter to Uranus- there's a geometrical reason for this behavior we should discover later.

(3) The First Reflection (The Wave Is Reflected From Neptune To Saturn)

We still have another problem- let's remember this problem reason

The gravitational wave first reflection is done from Pluto to Neptune, supposing Neptune would send the energy to Uranus but Neptune didn't send the energy instead Neptune kept the energy inside its orbit and prevent it to move toward Uranus – also Uranus itself couldn't release the imprisoned energy from Neptune orbit – and that necessitated Saturn itself to create interaction with Neptune to release the imprisoned energy for that the energy is moved toward Saturn immediately by that this reflection of the wave is considered the first reflection because the energy is released from Neptune to Saturn directly – Shortly- the wave energy is sent from Pluto to Neptune and the energy is reflected from Neptune to Saturn and this is the first reflection of the energy (the gravitational wave first reflection)

Let's see the data - The distance 1433 mkm (Saturn orbital distance) is still a distance And (1410 mkm = Pluto Neptune Distance)

1433 mkm = Mars orbital circumference

1433 mkm x 2π = 9010 mkm (Saturn Orbital Circumference)

1433 mkm x 4π = 18048 mkm (Uranus Orbital Circumference)

1433 days x 8π = 37100 days (Pluto orbital Circumference) (error 2.5%)

The data follows the rule (2π, 4π, 8π) perfectly as the other two reflections but the data shows 2 problems which are

1st problem

The data distribution is in the reversed direction of the energy motion direction- because the reflection is done from Neptune to Saturn but the data shows the orbital circumferences of (Saturn, Neptune, Uranus and Pluto) are defined by this reflection which supposes the energy is reflected from Saturn to Neptune and that's NOT Fact

This behavior is typical the behavior of the second reflection from Uranus to Jupiter-

Means- this behavior is repeated in the two reflections of energy which tells that the behavior depends on a geometrical reason.

2nd problem

The distance is not changed into a period of time as the other reflections but stayed as a distance! How and why?? let's see deeply this data

If the energy is reflected from Saturn to Neptune, Saturn orbital circumference 9010 mkm should be changed into a period of time to be 9010 days and then

9010 days x 2π = 2 x 28244 days (28244 mkm = Neptune orbital circumference)

9010 days x 4π = 113223 days

9010 days x 6π = 169840 days

We see the data gives NO real values- means- this is not the direction of the data creation- Instead – the distance 1433 mkm or the circumference 9010 mkm is still distance and then

1433 mkm x 2π = 9010 mkm (Saturn Orbital Circumference)

1433 mkm x 4π = 18048 mkm (Uranus Orbital Circumference)

1433 days x 8π = 37100 days (Pluto orbital Circumference) (error 2.5%)

And

1433 mkm = Mars orbital circumference

We understand that, the data provides a distance (1433 mkm) and not a period of time then we have to ask again why this distance is not changed into a period of time?

We understand that the outer planets have 2 reflections (first reflection from Neptune to Saturn) and (the second reflection from Uranus to Jupiter)- also we understand that the solar system needs one reflection only in the outer planets and one reflection only in the inner planets and also we know the outer planets have two reflections because of Neptune negative effect on the solar system- means if Neptune is removed from the solar system the outer planets would have one reflection only – for that- the designer caused the two reflections in the outer planets to be complementary one another – the reflection from Uranus to Jupiter defines the planets orbital periods and the reflection from Neptune to Saturn defines these same planets orbital circumferences

The designer caused to make the two reflections complementary one another and by that the two reflections can be unified into one reflection and based on that the machine will work by one unified reflection in the outer planets and one single reflection in the inner planets- but how the energy motion produces the distances in place of the periods of time? this question is hard to answer because we don't see deeply how the reflection of energy can define each planet orbital period (or orbital circumference) by using the rates (2π, 4π, 6π) we just discovered the rule but more geometrical analysis is required to see how this rule works

NOTICE

In the third reflection (from Venus to Mars) – let's remember the data

Venus orbital circumference 680 mkm is Changed Into Mars orbital period 687 days

687 days x 2π = 4331 days (Jupiter orbital period)

687 days x 4π = 10747 days (Saturn orbital period) x 0.8

687 days x 6π x 2 = 25920 years (The Precession Cycle)

We have asked- why Saturn orbital period is effected by the rate (0.8)?

Let's try to answer – let's see the data 10747 /9800 = 9800/9010 where

10747 days = Saturn orbital period and 9010 mkm = Saturn orbital circumference

9800 mkm = 2 x 4900 mkm (Jupiter Orbital Circumference)

We know 4900 mkm and 4900 days is the player in the second reflection from Uranus to Jupiter- means- Saturn has effect also in the second reflection for that the second reflection has effect on Saturn data and caused its orbital period to be produced under the effect of the rate (0.8) which is the reflection rate as we will see in the next data

Group Data No (II)

(1)

3.024 mkm (Venus motion distance per solar day) x 0.8 = 2.4 mkm

2.57 mkm (Venus motion distance per solar day) = 1.0725 x 2.4 mkm

2.57 mkm x 0.8 = 2.082 mkm (Mars motion distance per solar day)

(2)

1.1318 mkm (Jupiter motion distance per solar day) x 0.8 = 2 x 1.0725 x 0.421 mkm

(3)

0.838 mkm (Saturn motion distance per solar day) x 0.8 = 2 x 1.0725 x 0.3129 mkm

Discussion

We discuss the data no. (2) and (3) at first

DATA NO. (2)

1.1318 mkm (Jupiter motion distance per solar day) x 0.8 = 2 x 1.0725 x 0.421 mkm

(0.421 mkm = Uranus motion distance in its rotation period)

DATA NO. (3)

0.838 mkm (Saturn motion distance per solar day) x 0.8 = 2 x 1.0725 x 0.3129 mkm

(0.3129 mkm = Neptune motion distance in its rotation period)

MORE DATA

0.5875 mkm (Uranus motion distance per solar day) x 0.8 = 0.46688 mkm

(0.466884 mkm = Jupiter motion distance in its rotation period) And

0.46688 mkm (Neptune motion distance per solar day) x 0.8 = 0.3736 mkm

(0.3736 mkm = Saturn motion distance in its rotation period) And

0.46688 mkm (Pluto motion distance per solar day) x 0.8 = 0.3248 mkm

(i)

The rate (0.8) is created by the waves reflection and the planets velocities are defined based on each other by this rate as discussed in the planet velocity definition- here the data shows the rate (0.8) defines each planet motion distance based on the other planet motion distance (in the same one reflection) –

let's explain that in more details

(1st reflection From Neptune to Saturn) for that

Saturn motion distance per solar day (0.838 million km) by the rate (0.8) defines Neptune motion distance in its rotation period 0.3129 million km

Also

Neptune motion distance per solar day (0.46688 million km) by the rate (0.8) defines Saturn motion distance in its rotation period 0.3736 million km

AND

(2nd reflection From Uranus to Jupiter) for that

Jupiter motion distance per solar day (1.1318 million km) by the rate (0.8) defines Uranus motion distance in its rotation period 0.421 million km

Also

Uranus motion distance per solar day (0.5875 million km) by the rate (0.8) defines Jupiter motion distance in its rotation period 0.46688 million km

AND

In the 3rd reflection we will see Mars motion distance per solar day is defined by Venus motion distance per solar day- follows the same rule

Notice

We note the data No. (2) and (3) show the data is distributed in the reversed direction for the energy motion because the energy is reflected from Neptune to Saturn and from Uranus to Jupiter- But data is distributed in the reversed direction-

In the third reflection we will see the data moves in the same direction with the energy distribution

Also

In Venus data we will see that it uses the square value (0.8)^2 and we will explain why the rate is used in square value

(ii)

Why is the rate (1.0725) found in the data? because the gravitational wave moves by speed of light (300000 km/s) in Saturn orbit and in all planets orbits till Venus orbit-

Shortly

the wave velocity was 205.8 km/s through Pluto, Neptune and Uranus orbits BUT

The wave velocity is accelerated in Saturn orbit and its velocity be = speed of light =300000 km/s, for that reason the rate (1.0725) is created because this is (Lorentz length contraction effect rate) and it can be produced only by motion with speed=(99% speed of light =297000 km/s)- shortly- the wave velocity be equal=speed of light = 300000 km/s in Saturn orbit, for that the rate (1.0725) is produced in the orbits of Saturn and Jupiter as the data shows (and also in Venus data we will see it)

(iii)

The previous data shows the planets distances are rated by the rate (0.8) for the planets players in the same wave reflection- but- this picture is not complete yet – because the planets which aren't players in the same reflection shows equal distances also but this distances equality doesn't depend on the rate (0.8) let's give examples

Jupiter motion distance in its rotation period = Neptune motion distance per solar day =0.466884 million km

And

Saturn motion distance in its rotation period 0.3736 mkm x π = Uranus motion distance per solar day 0.5875 mkm x 2

And

The Earth motion distance per solar day = Pluto motion distance in its rotation period = 2.574 million km

This distances equality must be produced also by the waves reflection but the rule is not clear yet- I want to say the effect of the rate (0.8) on the planets distances is part of greater rule explains how this distances equality is produced and the useful result of it –

Please note–I analyze this data in details in 2nd part of this 1st hypothesis explanation-

Now

Let's discuss the data No.(1)

DATA NO. (1)

3.024 mkm (Venus motion distance per solar day) x 0.8 = 2.4 mkm

2.57 mkm (The Earth motion distance per solar day) = 1.0725 x 2.4 mkm

2.57 mkm x 0.8 = 2.082 mkm (Mars motion distance per solar day)

2.57 mkm = The Earth motion distance per solar day= Pluto motion distance in its rotation period

Means

3.024 million km x (0.8)^2 x 1.0725 = 2.082 million km where

3.024 mkm =Venus motion distance per solar day

2.082 mkm =Mars motion distance per solar day

Notice

2.57 mkm = The Earth motion distance per solar day

2.57 mkm = 1.0725 x 2.4 mkm The moon motion distance per solar day

2.59 mkm = Pluto motion distance in its rotation period

The data tells Mars motion distance per solar day depends on Venus motion distance per solar day – here all distances are defined by the solar day-

In the third reflection- the wave is reflected from Venus to Mars- here also Venus motion distance per solar day (3.024 mkm) defines Mars motion distance per solar day (2.082 mkm)- but the definition depends on the squared value (0.8)^2

That shows Venus reflection follows the same rule used by the other reflections – where the sender planet motion distance per solar day defines the receiver planet motion distance

Perfectly the rule is followed BUT Why does Venus use the square value (0.8)^2??

Because of the reflections order – let's explain that

The two reflections in the outer planets are complementary each other and by that they are unified and can be considered as One Unified Reflection in the outer planets

Means- there is one unified reflection in the outer planets and one single reflection in the inner planets and these are two reflections- means – Venus reflection should be considered the second reflection that causes to square the value (0.8)- that explains why Venus uses the squared Value (0.8)^2

Notice

This is a proof for my theory that (one gravitational wave is reflected three times)- means- this wave is reflected before and effected by the rate (0.8) and this same wave is reflected again for that the rate (0.8) be in its squared value (0.8)^2

The Conclusion

The gravitational waves reflection causes the sender planet motion distance to define the receiver planet motion distance as seen in the data- the definition depends on the rate (0.8) – here we see one rule proves the receiver planet motion depends on the sender planet motion-

Group Data No (III)

(1)

5.56 = (568/102) = (59800/10747)

(2)

21.8 = (1898 /86.8) = 30589 /1407.6

(3)

(4.87/0.642) ^2 = (7.6)^2 and (7.6)^2 x 224.7 days = 2π^2 x 687 days

And

π^3 = 31 = (5.56)^2 = 4x 4.75 (but between 7.75 and 7.6 the error 2%)

Discussion

Data No. (1)

5.56 = (568/102) = (59800/10747)

568 x 10^24 kg = Saturn Mass

102 x 10^24 kg = Neptune Mass

59800 days = Neptune orbital period

10747 days = Saturn orbital period

In the first reflection the gravitational wave is reflected from Neptune to Saturn

This behavior shows second rule– for the planets in the same reflection- we see the masses rate defines the orbital periods rate and this behavior is used by the other two reflections- means- the gravitational wave reflection between two planets cause these two planets masses rate to define their orbital periods rate – let's see the rest data

Data No. (2)

21.8 = (1898 /86.8) = 30589 /1407.6 (notice1407.6π =4331 error 2%)

1898 x 10^24 kg = Jupiter Mass

86.8 x 10^24 kg = Uranus Mass

30589 days = Uranus orbital period

4331 days = Jupiter orbital period

In second reflection the gravitational wave is reflected from Uranus to Jupiter

It's the same rule and behavior, the planets masses rates defines their orbital periods

Just Jupiter orbital period 4331 is divided by (π) – no any other change in the rule proves that the rule is a fact and used with the planets of the same reflection

Data No. (3)

(4.87/0.642) ^2 = (7.6)^2 and (7.6)^2 x 224.7 days = 2π^2 x 687 days

4.87 x 10^24 kg = Venus Mass and 0.642 x 10^24 kg= Mars Mass

224.7 days = Venus orbital period and 687 days= Mars orbital period

In the third reflection the gravitational wave is reflected from Venus to Mars

Here also we see the planets use the same rule and the same behavior – the masses rate defines the orbital periods rate-But the rate is squared! Why?

Venus Mass = 7.6 Mars Mass but the data uses the squared rate (7.6)^2 –

We should pay attention for this rate because the other planets used their masses rate but NOT squared value – Why does Venus use the squared value (7.6)^2?

We have solved this question in the distances discussion when Venus used (0.8)^2 and the other planets use (0.8) only- here also is similar to that- let's remember the reason

We agreed that the two wave reflections in the outer planets are complementary one another and by that they are unified together into one unified reflection and by that the outer planets has one unified reflection and the inner planets has one single reflection and these are considered as two reflections and for that Venus reflection is considered the second one in the solar system (and the final one) for that Venus uses the squared Value – where we know the wave reflection causes to square the value

Notice - 5.56 = (568/102) = (59800/10747) = (10/1.8) =9010/1622 where 1.8 deg = Neptune orbital inclination and 10 =4 x 2.5 deg (Saturn orbital inclination) and -9010 mkm= Saturn orbital circumference and 1622 mkm = Neptune Uranus Distance

Notice π^3 = 31 = (5.56)^2 = 4x 4.75 (but between 7.75 and 7.6 the error 2%) – this data is discussed in the next point

The Conclusion The Wave Reflection Causes The Sender And Receiver Planets Masses Rate To Define Their Orbital Periods Rate.

Group Data No (IV)

(1)

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

(2)

142984 km (Jupiter diameter)/51118 km (Uranus diameter) = 2.79 =5.56/2

(3)

378675 km (Saturn Circumference)/49528 km (Neptune diameter) = 7.6

Discussion

Notice

π^3 = 31 = (5.56)^2 = 4x 4.75 (but between 7.75 and 7.6 the error 2%)

This data shows the rates (5.56) and (7.6) are found based on the value (π^3=31) I try to prove that it's one energy (one value π^3=31) and the different rates as (5.56 and 7.6) are found depending on (this one value π^3=31) by geometrical reasons – that proves it's one energy (one wave) is reflected three times in the solar system – the value (π^3 = 31 =) is very important because all rates depend on it

The group data shows the planets diameters rates depend on the value (π^3 =31)- let's examine it in following

Data No. (1)

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

3.4 degrees = Venus Orbital Inclination

1.9 degrees = Mars Orbital Inclination

The data shows the two planets diameters are rated with rate equal their orbital inclination and this rate equal π^0.5

Notice

177.4 degrees (Venus axial tilt) = 1.9 deg (Mars orbital inclination) x 93.4

90+ 3.4 = 93.4 deg

Data No. (2)

142984 km (Jupiter diameter)/51118 km (Uranus diameter) = 2.79 = 5.56

We remember 31 = (5.56)^2

Data No. (3)

378675 km (Saturn Circumference)/49528 km (Neptune diameter) = 7.6

Also we remember 31/4 = 7.75 (and the difference between 7.75 and 7.6 is 2%)

The data shows the diameters rates depend on the value (π^3 = 31 =) as the masses do

Means- the planets masses and diameters are created rated to one another based on this same value (π^3 = 31 =)

I try to prove that – one energy is found behind all this data- the value (π^3 = 31 =) refers to one energy and this energy is effected by different geometrical reasons and that causes this energy (π^3 = 31 =) to show different rates as (5.56) and (7.6)

Shortly – we deal with one energy reflected three times in the solar system and the planets data are defined by the effect of this energy on them

Please note- we can imagine one river of water moves through different cities and each city deals with the river based on its own data- one city has great soil and this uses the river water to plant vegetables and fruits- another city its ground has many holes and caves the river water will cause all these holes to be filled of water and that will create many moors in this city and that will not be useful for it –

We have here the same picture-

One energy moves through the solar system and reflected three times in it and this reflection causes changes for the planets data for that the different rates (5.56 and 7.6) are created from this one energy (π^3 = 31 =) by geometrical reasons have effects on it.

Group Data No (V)

(1) 243 mkm = 2.082 mkm x 116.7 days

(2) 17.2 km = 13.1 km/s x 1.3129 seconds

(3) 16.1 km = 9.7 km/s x 1.65 seconds

Discussion

We discuss data No. (2) and (3) at first

Data No. (2)

17.2 km = 13.1 km/s x 1.3129 seconds

13.1 km /s = Jupiter velocity

1.13129 = (5.25/4) but 5.25 x 1.0725 = 5.56

17.2 hours = Uranus rotation period

Data No. (3)

16.1 km = 9.7 km/s x 1.65 seconds

9.7 km /s = Saturn velocity

1.65 = (5.25/π) but 5.25 x 1.0725 = 5.56

16.1 hours = Neptune rotation period

The data shows each planet rotation period depends on the other planet velocity based on the rate (5.56) where (31=5.56^2)- that shows Uranus rotation period is connected with Jupiter velocity and Neptune rotation period is connected with Saturn velocity proves that a deep connection is found between each two planets as a result for the wave reflection between them

Data No. (1)

243 mkm = 2.082 mkm x 116.7 days

243 days = Venus rotation period

2.082 mkm =Mars motion distance per solar day and 116.75 days = Venus day period

We see also here – Venus rotation period is related to Mars velocity- and this similar to the other planets behavior as we have discussed before

Notice

Venus (35 km/s) moves in 10747 seconds a distance = 378675 km

Where

378675 km = Saturn circumference

10747 days = Saturn orbital period

We know that- No direct reflection is found between Venus and Saturn- but the data shows deep interaction is found between them

I want to say

I provide different data to prove my hypothesis tells (The gravitational waves are produced by the planets motions energies and the waves are reflected three times in the solar system and the wave reflection causes to square the wave velocity) for that I put different data trying to prove this hypothesis

But- the real design is much complex than this small hypothesis- because this hypothesis refers to one rule found in the design but the design is consisted of hundreds of rules and by that I provide very narrow vision for the whole truth-

Imagine we examine the artery connected between the human liver and his heart- it's one artery – it's fact and real piece of the human body but it's just one artery of many others- I want to say- the real vision of the solar system is so wide than this one I provide here- that's why the rules are not complete- but I provide strong data can prove my hypothesis and can show a piece of truth about the solar system real design.

Group Data No (VI)

(1)

177.4 degrees = 115.2 degrees x π/2

(2)

97.8 degrees = 31 x 3.1 degrees

(3)

28.3 degrees (Neptune axial tilt) = 26.7 degrees (Saturn axial tilt) x 1.0725

Discussion

Data No. (1)

177.4 degrees = 115.2 degrees x π/2

177.4 degrees = Venus Axial Tilt

25.2 degrees = Mars Axial Tilt BUT 25.2 +90 = 115.2 degrees

Please note

(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)

And

(177.4 deg Venus axial tilt / 115.2 degrees) = π/2

We see clearly the data depend on the value (π^3) and different geometrical reasons have effect on this value to produce these rates (π^0.5 and π/2)

Data No. (2)

97.8 degrees = 31 x 3.1 degrees

97.8 degrees = Venus Axial Tilt

3.1 degrees = Mars Axial Tilt

The data still depends on this same value (π^3= 31)

Group Data No (VII)

The distance 1433 million km

This distance should prove the energy is transported and the waves are reflected in the solar system because this distance is used frequently in the solar system and no explanation for such using better than the reflection of energy – let’s see its data

1433 million km = Mars Orbital Circumference

1433 million km = Saturn Orbital Distance

1433 million km = Uranus Saturn Distance

2 x 1433 million km = Uranus Orbital Distance

π x 1433 million km = Neptune Orbital Distance

(π+1) x 1433 million km = Pluto Orbital Distance

1410 million km = Pluto Neptune Distance (with 1433 mkm error 1.7%)

Also

1433 days = 2π x 224.7 days (Venus Orbital Period)

Logically there's a geometrical reason to cause all these distances to be equal and rated to each other based on this same root (1433)- and the wave reflection can be this geometrical reason by which this data is created.

III- The Explanation Of The Wave Reflection Effect On The Solar System Design

The gravitational waves reflection has great effect on the solar system design- let's refer to this effect in following

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 planets motions energies are stored in these orbits as waves move by this velocity 205.8 km/s – means – great and massive motion energy is stored in these orbit where the waves move by 205.8 km/s that needed great areas to store so massive amount of energy

BUT

The Waves Velocity Is Accelerated In Saturn Orbit

This is the important point- because- the interaction between the outer planets caused to reflect the wave in Saturn orbit firstly and this reflection causes to square the velocity and then the velocity is squared and be equal the speed of light – means- the gravitational waves move by speed of light starting from Saturn orbit and continues with this speed till Venus and the other inner planets-

This is very important picture because

The low velocity 205.8 km/s needed great areas that causes the orbits or Pluto, Neptune and Uranus to be so great areas – BUT

The high speed motion (speed of light) doesn't need great areas – that's why the planets orbits from Saturn to Mercury are small orbits and the inner has very small orbits because the energy doesn't depend on the number of waves move by velocity 205.8 km/s but the energy depends on the motion be speed of light by that the energy of 1461 waves move by 205.8 km/s be equal the energy of one wave moves by speed of light – that causes the orbits to be small orbits – and that explains the distribution of the planets from the sun to Pluto.

And for that

When the massive reflected 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

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

Gerges Francis Tawdrous +201022532292

Physics Department- Physics & Mathematics Faculty

Peoples' Friendship university of Russia – Moscow

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