Gravity

[trevorjohnson83]

What we may be looking at in the bright spots of this picture of glass is the core of the atom and the grayer shades where the edges meet?

 

[ding]

Atoms have no space in them, the EM field comes from the core of the nucleus. In the core of the earth or the atom there is no aether filling the gaps between atoms, they are compressed together and function as one. The aether around the core compresses as if it were heat radiating from the core but instead creates a field. Two of the same fields attract because the core has infinity in it in size and temperature and are like infinite sinks floating in the infinite cold and big and expanse. Instead of the sinks pulling in the aether like water, they pull together.

Is this from Ken Wheeler?

 

[trevorjohnson83]

Is this from Ken Wheeler?

I barely follow Ken Wheely you'll have to ask Grumblenuts, aka Butts, captain butts, but not butthook that was a cat's name.

 

[ReinyDays]

The most common type of glass, silicate glass, is made from silicon dioxide (SiO2), which is a 3D network of tetrahedra. In this network, each corner oxygen atom is shared with the adjacent tetrahedron. The tetrahedral units can also form chains and sheets, which are used to make other ceramics.

View attachment 969656

Dancing atoms in glass revealed for first time

www.nbcnews.com

This also refutes the OP ... well done ... unfortunately this isn't why glass is transparent ... but you're going the right direction ...

 

[trevorjohnson83]

This also refutes the OP ... well done ... unfortunately this isn't why glass is transparent ... but you're going the right direction ...

I don't where Reinny is going with this so I'll just assume your answer is ChatGPT's?

what causes a substance to be transluscent and who came up with the theory? what are experiments to prove the theory?


GPT-3.5-Turbo

Poe
Translucency in a substance refers to its ability to transmit light while scattering it to some degree. The understanding of translucency is rooted in the field of optics and the interaction of light with matter.

The theory explaining the phenomenon of translucency was developed by English physicist Lord Rayleigh, also known as John William Strutt, in the late 19th century. His work on scattering of light and the behavior of small particles within a medium laid the foundation for our understanding of translucency.

Lord Rayleigh's theory, known as the Rayleigh scattering theory, explains that when light encounters particles or structures within a substance that are smaller than the wavelength of the incident light, the light is scattered in all directions. This scattering of light contributes to the substance's translucency rather than complete transparency or opacity.

To prove the theory of Rayleigh scattering and understand the phenomenon of translucency, several experiments have been conducted. Some notable experiments include:

Tyndall Effect: John Tyndall, an Irish physicist, observed the scattering of light by colloidal particles in a transparent medium. This effect, now known as the Tyndall effect, demonstrated the scattering of light in a translucent material, making the path of light visible through the medium.
Electromagnetic Wave Scattering: Experiments involving the scattering of electromagnetic waves, including visible light, by small particles or structures within a medium, have provided evidence for the theory of Rayleigh scattering. These experiments have helped establish the relationship between the size of the scattering particles and the wavelength of the incident light.
Microscopic Analysis: Microscopic analysis of substances with translucent properties allows scientists to observe the scattering of light at a microscopic level. By examining the structure and composition of a material, researchers can gain insights into the scattering mechanisms responsible for its translucency.
Optical Measurements: Sophisticated optical instruments, such as spectrophotometers, have been used to measure and analyze the transmission and scattering properties of translucent materials. These measurements provide quantitative data on the amount of light transmitted and scattered, helping to validate the theory of translucency.
Through a combination of theoretical understanding, experimental observations, and advancements in optical technologies, our understanding of translucency and the Rayleigh scattering theory has been refined and confirmed.

 

[trevorjohnson83]

Color may be the smaller atoms in a molecule makin light. Back in the woods of balamama we nude the read in books bout it back then?

 

[ReinyDays]

I don't where Reinny is going with this so I'll just assume your answer is ChatGPT's?

what causes a substance to be transluscent and who came up with the theory? what are experiments to prove the theory?


GPT-3.5-Turbo

Poe
Translucency in a substance refers to its ability to transmit light while scattering it to some degree. The understanding of translucency is rooted in the field of optics and the interaction of light with matter.

The theory explaining the phenomenon of translucency was developed by English physicist Lord Rayleigh, also known as John William Strutt, in the late 19th century. His work on scattering of light and the behavior of small particles within a medium laid the foundation for our understanding of translucency.

Lord Rayleigh's theory, known as the Rayleigh scattering theory, explains that when light encounters particles or structures within a substance that are smaller than the wavelength of the incident light, the light is scattered in all directions. This scattering of light contributes to the substance's translucency rather than complete transparency or opacity.

To prove the theory of Rayleigh scattering and understand the phenomenon of translucency, several experiments have been conducted. Some notable experiments include:

Tyndall Effect: John Tyndall, an Irish physicist, observed the scattering of light by colloidal particles in a transparent medium. This effect, now known as the Tyndall effect, demonstrated the scattering of light in a translucent material, making the path of light visible through the medium.
Electromagnetic Wave Scattering: Experiments involving the scattering of electromagnetic waves, including visible light, by small particles or structures within a medium, have provided evidence for the theory of Rayleigh scattering. These experiments have helped establish the relationship between the size of the scattering particles and the wavelength of the incident light.
Microscopic Analysis: Microscopic analysis of substances with translucent properties allows scientists to observe the scattering of light at a microscopic level. By examining the structure and composition of a material, researchers can gain insights into the scattering mechanisms responsible for its translucency.
Optical Measurements: Sophisticated optical instruments, such as spectrophotometers, have been used to measure and analyze the transmission and scattering properties of translucent materials. These measurements provide quantitative data on the amount of light transmitted and scattered, helping to validate the theory of translucency.
Through a combination of theoretical understanding, experimental observations, and advancements in optical technologies, our understanding of translucency and the Rayleigh scattering theory has been refined and confirmed.

Window glass is transparent ... not translucent ... guess again ... here's a clue, find out why drywall is opaque ...

ChatGPT is programmed to lie ... so be careful ...

 

[Resnic]

Gravity is a pseudo-force ... an artifact of our frame-of-reference ... in reality, it doesn't exist ... the Earth and Sun travel is straight lines through space, it is space that curves around the Sun thus giving the appearance of an elliptical orbit ...

We as humans like to view our universe in the usual x-, y- and z-axes ... and that serves well for reproductive purposes ... and in this rectilinear universe, parallel lines never cross ... but that's not reality, in the real universe, parallel lines do cross, sometimes quite violently ...

As a test, hold you coffee cup above the floor, now let go ... see ... parallel lines always cross ... and boy is mama gonna be cross with you using that lame excuse again ... General Relativity be damned ...

No gravity doe exist.

Energy is attracted to energy. The more energy you have the more energy surrounding it is attracted to it.

Is Energy attracted to Energy?

Newton taught us that bodies with mass attract each other according to the universal law of gravitation (mass-mass attraction) and Einstein taught us that mass and energy are equivalent though his ...

physics.stackexchange.com

A planets mass creates gravity.

That's why Jupiter has the most gravity of our planets.

Fact of the day: Jupiter has the highest gravity in our solar system

Among the planets, Jupiter has the highest gravity in our solar system.

www.indiatoday.in

And it's also the largest of our planets.

Planet Sizes and Locations in Our Solar System - NASA Science

Which planet is biggest? Which planet is smallest? What is the order of the planets as we move away from the Sun?

science.nasa.gov

All matter taken down to its sub atomic state is nothing more than energy. Even a steel bar if you look down small enough isn't hard at all. It's just a very tightly packed seething mass of energy. That's why the more matter in one spot the more energy, the more energy the gravity it creates as it draws other energy towards it.

Gravity also exists because we can measure it

How Do You Measure the Strength of Gravity?

From the late 1700s to the present day, scientists have used versions of a sensitive laboratory instrument known as a torsion balance.

www.nist.gov

 

[ReinyDays]

No gravity doe exist.

Energy is attracted to energy. The more energy you have the more energy surrounding it is attracted to it.

Is Energy attracted to Energy?

Newton taught us that bodies with mass attract each other according to the universal law of gravitation (mass-mass attraction) and Einstein taught us that mass and energy are equivalent though his ...

physics.stackexchange.com

A planets mass creates gravity.

That's why Jupiter has the most gravity of our planets.

Fact of the day: Jupiter has the highest gravity in our solar system

Among the planets, Jupiter has the highest gravity in our solar system.

www.indiatoday.in

And it's also the largest of our planets.

Planet Sizes and Locations in Our Solar System - NASA Science

Which planet is biggest? Which planet is smallest? What is the order of the planets as we move away from the Sun?

science.nasa.gov

All matter taken down to its sub atomic state is nothing more than energy. Even a steel bar if you look down small enough isn't hard at all. It's just a very tightly packed seething mass of energy. That's why the more matter in one spot the more energy, the more energy the gravity it creates as it draws other energy towards it.

Gravity also exists because we can measure it

How Do You Measure the Strength of Gravity?

From the late 1700s to the present day, scientists have used versions of a sensitive laboratory instrument known as a torsion balance.

www.nist.gov

That's the Classical Physics approach ... and I agree this is very useful ... but it doesn't explain Mercury's orbit ...

I'm not saying GR's right ... but it does explain these measurement better ... the Earth travels in a straight line, it is space itself that curves around the Sun ... what egg-heads call a "non-Euclid universe" ...