Re: Bohr's Atom still number one
- From: "guskz@xxxxxxxxxxx" <guskz@xxxxxxxxxxx>
- Date: 6 May 2007 00:38:13 -0700
On May 5, 4:29 pm, bz <bz+...@xxxxxxxxxxxxxxxxxxxx> wrote:
"g...@xxxxxxxxxxx" <g...@xxxxxxxxxxx> wrote innews:1178394138.430885.325220@xxxxxxxxxxxxxxxxxxxxxxxxxxx:
On May 5, 10:41 am, bz <bz+...@xxxxxxxxxxxxxxxxxxxx> wrote:
snip too long
....
My main point is that the Bohr model predicts a
rapid loss of energy with all electrons collapsing into the nucleus.
Bohr could not explain why orbiting electrons would not radiate
constantly.
By radiate, you mean emit photons?
Yes.
Why would they need to radiate
under Bohrs?
Because they are undergoing constant acceleration toward the nucleus, just
as the earth undergoes constant acceleration toward the sun.
You mean F=ma acceleration?...I don't know if I would call it
acceleration if the forces cancel out so that the Earth remains at a
constant orbital from the Sun?
The Earth is made of electrons...regardless of atom or Sun the
electrons should radiate since they and the Earth undergo constant
acceleration toward the sun and by a very very large amount
considering the forces at hand and the number of electrons in the
Earth?
And why collapse into the nucleus...since protons repulse them
Protons repulse them????
Unlike charges attract. Protons are positive. Electrons are negative.
Oops I was drinking beer at the time.
What do you think causes electrons to associate with protons anyway?
"They" not me say it's due to photon(phase relationship) exchange.
and
electrons have a high velocity?
What makes you think they have a high velocity in the atom?
They don't in the modern atomic theory, but, you are correct when you think
that, in Bohrs model, they will need to be traveling.
They will need to be attracted to the nucleus. That attraction will 'push'
them toward the nucleus. Only their speed keeps them from reaching it.
Ok but you just said: > What makes you think they have a high velocity
in the atom?
If they didn't they would crash into the nucleus
Electrons, when ever they travel at a high speed and their direction of
travel is changed, radiate energy.
....
How do they gain it back....otherwise they would crash into the
nucleus?
(energy = heat from reaction = photons)
Not all energy is manafest as photons.
Correct, but they would know what happens to the photons(emitted or
absorbed) from the total Energy of the reaction (before and after).
A chemical reaction may require energy of activation (to get the
reactants across an energy barrier.) It may absorb or give off heat,
depending on whether the products are in a lower energy state than the
reactants.
Don't know my chemistry....say 2H+ + O- + E = H2O +....
No.
2H2 + O2 --> 2 H2O + energy
Bravo..!
They should know the total energy before and after of chemical
reactions
Those can usually be predicted.
(therefore the total photons produced or absorbed as well)?
Whether or not photons are produced depends on the reaction conditions.
For example, if the reaction takes place inside a fuel cell, the energy
produced is in the form of electromotive force rather than photons.
Ok but that's not my point which is you said they weren't sure when
the photons are emitted or instead absorbed...
I did NOT say 'they are not sure'.
I re-pasted your past answer below here:
You previously said:
*******************************************
********************************************All we know for sure is that changes in energy state SOMETIMES are
accompanied by emission of photons and that absorption of a photon
results in changes in the energy level(s).
There's a difference between SOMETIMES...and knowing exactly what
occurs during a chemical reaction.
What makes you think I was talking about chemical reactions?
I was talking about Atoms OR Molecules in transition between two different
states of excitement. Transitions are only associated with photon
emission/absorbtion _some of the time_. NOT all the time.
My point being that you should NOT assume that photons are always emitted
or absorbed because it is not true.
An electron cannot get closer to a nucleus (Atomic orbital) without
radiating energy and losing velocity.
One could be ground state and the other could be a triplet state, for
example. Or we could be talking about transition from an excited state to a
triplet state.
Seehttp://en.wikipedia.org/wiki/Phosphorescence
....>> > The sun will also be affected and there will be a similar delay
before this occurs.
You may be right, but I recommend that you study physics, chemistry and
math.
Master those subjects before you try the more challenging subjects like
'Elementry Omnipotence and Omniscience', the graduate courses in
'Godhood', and the PostDoctoral position of 'Master of the Universe'.
Your questions show that you are not doing your homework.
--
bz
please pardon my infinite ignorance, the set-of-things-I-do-not-know is an
infinite set.
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