All Photons Move at 300,000km/s.... But Don't?

jcc said:
gravity and electrostatic force don't have force field? only magnetic force has force field?
Click to expand...
Sorry, I suppose I should have said "can be" because - again - different ones are different. For example, the tidal force is also a cube function because it has an additional dimension of distance in it.
 
jcc said:
but who knows exactly how 1 electron and 1 proton formed into hydrogen atom? why we have all kinds of high tech toys but not a working model of an atom?
Click to expand...

Science knows.
Hydrogen atoms formed around 380,000 years after the BB, when temperatures and pressures had dropped sufficiently to allow electrons to couple with protons.
jcc said:
how is it possible for electrons circling all the time without falling into nucleus?
Click to expand...
I am wondering why electrons don�t crash into protons, thus destroying the world. The only reasons I can find are because electrons can only exist in electron orbitals and at certain energy levels. Why can electrons only exist in these conditions?
- Mary Woodruff
Iowa State University, Ames, Iowa
A:
Mary- That's a really important and deep question. I've borrowed part of our answer to a related question, because this one is important enough to answer more than once.

Naturally, one would think that because protons are positively charged, and electrons are negatively charged, the two should attract and stick together. The reason that doesn't happen can't even begin to be explained using classical physics. This was one of the key mysteries that were cleared up right away by the invention of quantum mechanics around 1925.

The picture you often see of electrons as small objects circling a nucleus in well defined "orbits" is actually quite wrong. As we now understand it, the electrons aren't really at any one place at any time at all. Instead they exist as a sort of cloud. The cloud can compress to a very small space briefly if you probe it in the right way, but before that it really acts like a spread-out cloud.

The weird thing about that cloud is that its spread in space is related to the spread of possible momenta (or velocities) of the electron. So here's the key point, which we won't pretend to explain here. The more squashed in the cloud gets, the more spread out the range of momenta has to get. That's called Heisenberg's uncertainty principle. It could quit moving if it spread out more, but that would mean not being as near the nucleus, and having higher potential energy. Big momenta mean big kinetic energies. So the cloud can lower its potential energy by squishing in closer to the nucleus, but when it squishes in too far its kinetic energy goes up more than its potential energy goes down. So it settles at a happy medium, with the lowest possible energy, and that gives the cloud and thus the atom its size.

That basically answers your question, although we admit that the answer sounds strange. There really are very definite mathematical descriptions to go along with those words.

One fine point -- a small bit of the electron clouds actually extend inside the protons and neutrons of their atoms. The lucky thing for us is that the electrons and protons (and neutrons) do not interact in a way that changes them, in most atoms. The force of electrical attraction does not change the electrons, protons, or neutrons' identities and an electron may pass through a nucleus.

Some nuclei however, with an excess of protons and not enough neutrons to be perfectly stable, will capture one of the inner electrons turning one of the protons into a neutron and ejecting an electron neutrino. This process involves the weak nuclear force. The process must be energetically favored -- the energy of the resulting nucleus must be lower than that of the original one, which keeps it from happening over and over until all the protons are gone. The protons and neutrons obey the Pauli exclusion principle separately and fill up definite energy levels inside the nucleus. If there are too many protons, one can turn into a neutron by capturing an electron and emitting a neutrino, and drop down to a lower energy level. If you have more neutrons, then turning a proton into a neutron means it has to climb to a higher energy level, and conservation of energy keeps the reaction from happening.

A neutron is just a tiny bit heavier than a proton. If it were the other way around, Hydrogen atoms would be unstable under electron capture, and neutrons would never decay and the Universe would be a very very different place.

By the way, you raise another point, about electrons only being in particular orbits and energy levels. People (and textbooks) often say things like that. There was a brief first attempt (by Bohr) at describing atoms that way, which was abandoned when real quantum mechanics was developed. It's not just that there aren't real orbits. It's also not true that an electron has to be in just one of the states with definite energy. It can be partly in each of several, just as it can be partly in various places, and partly going various directions.
https://van.physics.illinois.edu/qa/listing.php?id=1199

I really believe you are trying for a total ban, so you can go then to your local church and claim victim status, and tell them what the big nasty scientists did to you.
Is this true jcc?
Are you trying for a total ban for those reasons?
 
paddoboy said:
Science knows.
Hydrogen atoms formed around 380,000 years after the BB, when temperatures and pressures had dropped sufficiently to allow electrons to couple with protons.

I am wondering why electrons don�t crash into protons, thus destroying the world. The only reasons I can find are because electrons can only exist in electron orbitals and at certain energy levels. Why can electrons only exist in these conditions?
- Mary Woodruff
Iowa State University, Ames, Iowa
A:
Mary- That's a really important and deep question. I've borrowed part of our answer to a related question, because this one is important enough to answer more than once.

Naturally, one would think that because protons are positively charged, and electrons are negatively charged, the two should attract and stick together. The reason that doesn't happen can't even begin to be explained using classical physics. This was one of the key mysteries that were cleared up right away by the invention of quantum mechanics around 1925.

The picture you often see of electrons as small objects circling a nucleus in well defined "orbits" is actually quite wrong. As we now understand it, the electrons aren't really at any one place at any time at all. Instead they exist as a sort of cloud. The cloud can compress to a very small space briefly if you probe it in the right way, but before that it really acts like a spread-out cloud.

The weird thing about that cloud is that its spread in space is related to the spread of possible momenta (or velocities) of the electron. So here's the key point, which we won't pretend to explain here. The more squashed in the cloud gets, the more spread out the range of momenta has to get. That's called Heisenberg's uncertainty principle. It could quit moving if it spread out more, but that would mean not being as near the nucleus, and having higher potential energy. Big momenta mean big kinetic energies. So the cloud can lower its potential energy by squishing in closer to the nucleus, but when it squishes in too far its kinetic energy goes up more than its potential energy goes down. So it settles at a happy medium, with the lowest possible energy, and that gives the cloud and thus the atom its size.

That basically answers your question, although we admit that the answer sounds strange. There really are very definite mathematical descriptions to go along with those words.

One fine point -- a small bit of the electron clouds actually extend inside the protons and neutrons of their atoms. The lucky thing for us is that the electrons and protons (and neutrons) do not interact in a way that changes them, in most atoms. The force of electrical attraction does not change the electrons, protons, or neutrons' identities and an electron may pass through a nucleus.

Some nuclei however, with an excess of protons and not enough neutrons to be perfectly stable, will capture one of the inner electrons turning one of the protons into a neutron and ejecting an electron neutrino. This process involves the weak nuclear force. The process must be energetically favored -- the energy of the resulting nucleus must be lower than that of the original one, which keeps it from happening over and over until all the protons are gone. The protons and neutrons obey the Pauli exclusion principle separately and fill up definite energy levels inside the nucleus. If there are too many protons, one can turn into a neutron by capturing an electron and emitting a neutrino, and drop down to a lower energy level. If you have more neutrons, then turning a proton into a neutron means it has to climb to a higher energy level, and conservation of energy keeps the reaction from happening.

A neutron is just a tiny bit heavier than a proton. If it were the other way around, Hydrogen atoms would be unstable under electron capture, and neutrons would never decay and the Universe would be a very very different place.

By the way, you raise another point, about electrons only being in particular orbits and energy levels. People (and textbooks) often say things like that. There was a brief first attempt (by Bohr) at describing atoms that way, which was abandoned when real quantum mechanics was developed. It's not just that there aren't real orbits. It's also not true that an electron has to be in just one of the states with definite energy. It can be partly in each of several, just as it can be partly in various places, and partly going various directions.
https://van.physics.illinois.edu/qa/listing.php?id=1199

I really believe you are trying for a total ban, so you can go then to your local church and claim victim status, and tell them what the big nasty scientists did to you.
Is this true jcc?
Are you trying for a total ban for those reasons?
Click to expand...

are you satisfy with that answer? i don't at all.

electron cloud? is the cloud negative charged? is the cloud compressible?
 
Russ_Watters said:
Sorry, I suppose I should have said "can be" because - again - different ones are different. For example, the tidal force is also a cube function because it has an additional dimension of distance in it.
Click to expand...

don't be sorry. please tell me why lied about my light theory? readpo?
 
jcc said:
are you satisfy with that answer? i don't at all.
Click to expand...
That's because you are a troll and have an agenda.
jcc said:
electron cloud? is the cloud negative charged? is the cloud compressible?
Click to expand...
Electrons are negatively charged, electrons have a quantum/duel nature.
Is the cloud compressible? I don't know, why not google instead of trolling, or aren't you interested in real answers?
 
paddoboy said:
That's because you are a troll and have an agenda.

Electrons are negatively charged, electrons have a quantum/duel nature.
Is the cloud compressible? I don't know, why not google instead of trolling, or aren't you interested in real answers?
Click to expand...
what is quantum/duel nature? is it true or imaginary?

do you need google to answer is electron cloud compressible? is the cloud able to change orbital and emit photons?
 
jcc said:
what is quantum/duel nature? is it true or imaginary?
Click to expand...
Light and electrons exhibit a duel nature of particle and wave, that has been evidenced many times.
jcc said:
do you need google to answer is electron cloud compressible? is the cloud able to change orbital and emit photons?
Click to expand...
Why not? You show nothing but arrogant stupidity in ignoring all other answers, and that's what google is for.

It's a real pity that science over the years, in its efforts and discoveries, in reforming society to what we have today, had to also include idiots like yourself.
Again, you have questions to answer.
You expect answers yet are too lilly-livered in giving answers because you know that they will reveal where you are coming from and the trollish nature you exhibit on this forum.
 
i observe atoms are not compressible, electrons are not attracted by proton all the time. that's why i have reasonable doubt about present theory of atomic structure.

my questions are not answered, look your above post? why don't you calling those name callers trollish?
 
tell you what, i am not going to make any more comments until someone makes 1.

why waste my time?
 
Is it just me or did jcc seem to forget his or her usual way of writing in this post #139
jcc said:
Science is about constructing models to explain the behaviour of all we see, and the movement of the Universe around us. Those models enable us to go to the Moon, send probes to all the planets in the solar system, to construct televisions, computers, self drive cars, self opening doors etc.

we know exactly how those things works. every parts and functions.

but who knows exactly how 1 electron and 1 proton formed into hydrogen atom? why we have all kinds of high tech toys but not a working model of an atom?

how is it possible for electrons circling all the time without falling into nucleus?
Click to expand...
 
Last edited by a moderator:
Well jcc is on a three day ban, as of about 15 minutes ago.
 
jcc said:
i observe atoms are not compressible, electrons are not attracted by proton all the time. that's why i have reasonable doubt about present theory of atomic structure.
Click to expand...
Atoms are compressible but the forces required are extreme.
Positive charges attract negative charges all the time. Often that is not the dominant force.
 
billvon said:
Atoms are compressible but the forces required are extreme.
Positive charges attract negative charges all the time. Often that is not the dominant force.
Click to expand...
Yes, that was pointed out to him and examples of WDs, NSs and BHs were given.
 
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