Is there a simple way to detect gravitational waves?

[paddoboy]

so wiki is wrong?

In general terms, gravitational waves are radiated by objects whose motion involves acceleration. wiki

In general terms! If atoms and such created gravity waves, it would be impossible to detect. Just as I explained in post 71...and yes you do understand.

do atoms in hot water vibrate? do atoms in your body vibrate?

Has been answered.

in this thread, when bell 1 is ringing, is it producing gravitational waves? seems James think so.

No James just wasn't sure.

thanks for all the answers. most answers i don't understand, the rest i don't agree. no way i am trolling.

I believe you do understand, and whether you believe them or not is neither here nor there. The world, with the help of science keeps on turning.
And, yes, I believe you are trolling.

everything origin said in the last 2 comments.

wonder if i am the only one not agree?

Well in general I'm sure the vast majority in the world agree, and probably understand to a point.
Of course there are those who are pissed off somewhat as to how science has relegated the need for any deity, and then we have the others that think they can describe in another way and invalidate present day science...there's is delusions of grandeur.
The thing is, that the former and the latter cannot get a foot into proper science academia and forums like this are the only outlet they have to bash science and spread their nonsense.
Of course in all cases, they remain just that...insignificant and lost.

 

[jcc]

There would be no pauses. If we are talking about an atom there would be no detectable variation in gravity.

What energy? The vibrational energy of the atom? It will transfer the energy by conduction or radiation.

No.

No

No, it doesn't.

↑
any m1 and m2 at r distance, there is gravitation force f=G x m1m2/r^2.
if m1 vibrates in m12 direction at n times per second, it sends f x n gravitational force pauses per second to m2.
There would be no pauses. If we are talking about an atom there would be no detectable variation in gravity.

where is that energy go? heat? light? nothing? isn't energy conserve?
What energy? The vibrational energy of the atom? It will transfer the energy by conduction or radiation.

can hot/exited/vibrating atoms produce gravitational waves?
No.

is each of the hot atoms in/of the sun producing gravitational waves?​

No

seems without emitting photon or em wave, exited atoms able to transfer energy by produce gravitational waves?​

No, it doesn't.

i totally not agree your answers.

atoms vibrate will not produce gravitational waves/pauses? if we talk about all the hot atoms of the sun, no detectable gravitational waves?

how vibrational energy of the atom transfer energy by radiation? emit photons or produce em waves?

the rest 3 no's from you, do you have a source or just assuming?

 

[Daecon]

Maybe you should go and actually learn how to science, then you'd be able to understand those things you're not qualified to disagree with.

 

[origin]

↑
atoms vibrate will not produce gravitational waves/pauses? if we talk about all the hot atoms of the sun, no detectable gravitational waves?

how vibrational energy of the atom transfer energy by radiation? emit photons or produce em waves?

Hmmm, perhaps you could ask these same questions a few more times to make sure I understand what you want.

 

[jcc]

seems only 2 of you guys not understand my questions?

i totally not agree your answers.

atoms vibrate will not produce gravitational waves/pauses? if we talk about all the hot atoms of the sun, no detectable gravitational waves?

how vibrational energy of the atom transfer energy by radiation? emit photons or produce em waves?

the rest 3 no's from you, do you have a source or just assuming?

 

[origin]

seems only 2 of you guys not understand my questions?

i totally not agree your answers.

atoms vibrate will not produce gravitational waves/pauses? if we talk about all the hot atoms of the sun, no detectable gravitational waves?

how vibrational energy of the atom transfer energy by radiation? emit photons or produce em waves?

the rest 3 no's from you, do you have a source or just assuming?

So, are you asking:
"atoms vibrate will not produce gravitational waves/pauses? if we talk about all the hot atoms of the sun, no detectable gravitational waves?"

"how vibrational energy of the atom transfer energy by radiation? emit photons or produce em waves?"

 

[jcc]

yes, thanks.

 

[jcc]

well?

I can thank you again, for some answers. Thank You!

 

[jcc]

so where is your answer? any 1 has answers? please share with everyone!

 

[Daecon]

You know, if you really cared about the answers you'd make a minimal effort to investigate these things for yourself.

But, of course, you'd probably ignore anything you find because it's from a "wiki".

 

[jcc]

You know, if you really cared about the answers you'd make a minimal effort to investigate these things for yourself.

But, of course, you'd probably ignore anything you find because it's from a "wiki".

that's not true. wiki has no answer to my questions. otherwise, why can't you quote it and answer me?

how 1 electron and 1 proton form into an atom? how electron emits photon?

 

[Daecon]

that's not true. wiki has no answer to my questions. otherwise, why can't you quote it and answer me?

how 1 electron and 1 proton form into an atom? how electron emits photon?

We've quoted wiki to answer you in your other threads, you dismissed those answers and wanted different answers that weren't from wiki.

So no, from now on if you want any answers you'll have to look for them yourself.

 

[jcc]

if you understand something, you don't need quote wiki or links, simple state the mechanism and physics.

fact is wiki has no answers to my questions. if you can prove me wrong, please do it. if you can't, keep calling me trolling.

 

[jcc]

So, are you asking:
"atoms vibrate will not produce gravitational waves/pauses? if we talk about all the hot atoms of the sun, no detectable gravitational waves?"

"how vibrational energy of the atom transfer energy by radiation? emit photons or produce em waves?"

still waiting....

 

[Dr_Toad]

For your ban, you fucking halfwit? Get thee gone!

 

[jcc]

For your ban, you fucking halfwit? Get thee gone!

your science teacher is prude of you.

 

[origin]

yes, thanks.

Your questions have been answered several times, I am sorry that you cannot understand the answers.

Go away.

 

[jcc]

Your questions have been answered several times, I am sorry that you cannot understand the answers.

Go away.

go where? you mad yourself cannot answer your own questions?

So, are you asking:
"atoms vibrate will not produce gravitational waves/pauses? if we talk about all the hot atoms of the sun, no detectable gravitational waves?"

"how vibrational energy of the atom transfer energy by radiation? emit photons or produce em waves?"

 

[origin]

go where? you mad yourself cannot answer your own questions?

Anywhere but here. Your questions have been answered.

 

[jcc]

since this particular subject is one in which a lot of mainstream physics money was and is being spent, so far with nothing but null results, I, for one would be willing to give jcc the benefit of the doubt. Better and more productive to allow discussion that might bring in some better ideas than to hone dozens more LIFO mirrors and beam splitters to finer than 1 atom planar tolerances, and all of the wasted expense that process will entail.

sounds fair.

so far how do you think?

is vibrating atoms produce gravitational waves?

if so, all the hot atoms of the sun produce a lot gravitational waves, where go those waves? Thanks.