Timeline for Separatibility of wave-function in Schrodinger equation describing motion of particle in spherical shell [closed]
Current License: CC BY-SA 4.0
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| Aug 31, 2022 at 6:34 | history | edited | Alex Alex | CC BY-SA 4.0 |
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| Aug 29, 2022 at 6:27 | history | edited | Alex Alex | CC BY-SA 4.0 |
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| Aug 29, 2022 at 6:23 | vote | accept | Alex Alex | ||
| Aug 29, 2022 at 6:22 | vote | accept | Alex Alex | ||
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| Aug 22, 2022 at 9:53 | history | edited | Alex Alex | CC BY-SA 4.0 |
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| Aug 22, 2022 at 8:36 | history | edited | Alex Alex | CC BY-SA 4.0 |
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| Aug 21, 2022 at 10:55 | history | edited | Alex Alex | CC BY-SA 4.0 |
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| Aug 21, 2022 at 10:50 | history | edited | Alex Alex | CC BY-SA 4.0 |
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| Aug 21, 2022 at 10:43 | history | edited | Alex Alex | CC BY-SA 4.0 |
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| Aug 21, 2022 at 10:36 | history | edited | Alex Alex | CC BY-SA 4.0 |
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| Aug 21, 2022 at 7:00 | history | edited | Alex Alex | CC BY-SA 4.0 |
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| Aug 21, 2022 at 6:42 | comment | added | Alex Alex | Yes. But how do I know that obtained solution for separable function is true in general. Suppose that both separable and inseparable functiions satisfy the differential equation. How do I know that inseparable functions doesn't satisfy the differential equation? | |
| Aug 21, 2022 at 6:19 | comment | added | Alex Alex | I think it is was perfectly clear what I was asking for. Nontheless I made it more clead. When I was it asking I made my point clear by paraphrasing what I want several time and by explaining in detail what I am interested in. I think that the question was a bit long because of this. I am asking only what is in question section. Other sections are ment for clearifying my question. Please reopen my question. | |
| Aug 21, 2022 at 6:09 | history | edited | Alex Alex | CC BY-SA 4.0 |
I made question more clear
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| Aug 20, 2022 at 22:38 | history | closed |
hft Miyase Jon Custer |
Needs details or clarity | |
| Aug 20, 2022 at 20:42 | review | Close votes | |||
| Aug 20, 2022 at 22:38 | |||||
| Aug 20, 2022 at 20:28 | comment | added | hft | "Update... I am primarily interested in verifying method by which separability of function is obtained" It's an ansatz. It's obtained by making a guess. You check that the guess works and that it the only justification you need. | |
| Aug 20, 2022 at 19:45 | answer | added | ZeroTheHero | timeline score: 3 | |
| Aug 20, 2022 at 19:38 | history | edited | Alex Alex | CC BY-SA 4.0 |
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| Aug 20, 2022 at 19:14 | answer | added | Silly Goose | timeline score: 1 | |
| Aug 20, 2022 at 18:59 | answer | added | Verktaj | timeline score: 0 | |
| Aug 20, 2022 at 18:24 | answer | added | hft | timeline score: 1 | |
| Aug 20, 2022 at 18:05 | answer | added | Andy Chen | timeline score: 1 | |
| Aug 20, 2022 at 17:25 | comment | added | Alex Alex | In my question I mentioned motion of electron around hydrogen nucleus, in that case there is thickness. Solution of problem about motion of particle on spherical shell is used to obtain solution for the hydrogen atom problem. | |
| Aug 20, 2022 at 17:17 | comment | added | Alex Alex | No. Radius is constant. This problem is described in Atkins Physical Chemistry textbook, 8th edition, 301 page. This book is in google search. | |
| Aug 20, 2022 at 17:15 | comment | added | schris38 | Does the spherical shell have some sirt of thickness?? | |
| Aug 20, 2022 at 17:11 | history | edited | Alex Alex | CC BY-SA 4.0 |
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| Aug 20, 2022 at 17:02 | comment | added | Alex Alex | I corrected that. Thank You. | |
| Aug 20, 2022 at 17:01 | history | edited | Alex Alex | CC BY-SA 4.0 |
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| Aug 20, 2022 at 15:20 | comment | added | Gert | The SE for an electron moving on a sphere is in $x$, $y$ and $z$. | |
| Aug 20, 2022 at 14:41 | history | edited | Alex Alex | CC BY-SA 4.0 |
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| Aug 20, 2022 at 14:32 | history | edited | Gert | CC BY-SA 4.0 |
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| Aug 20, 2022 at 14:28 | comment | added | Gert | The TISE for an electron in spherical coordinates is always separable but that doesn't necessarily yield a solution though... | |
| Aug 20, 2022 at 14:24 | comment | added | Gert | Yes, I'm with doublefelix on that. | |
| Aug 20, 2022 at 14:23 | comment | added | don't train ai on me | Can you add to your question the differential equation for which this is the solution? | |
| Aug 20, 2022 at 14:22 | history | edited | Alex Alex | CC BY-SA 4.0 |
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| Aug 20, 2022 at 14:17 | comment | added | Alex Alex | Yes. In the textbook this topic is named as "Rotation in three dimensions: the particle on a sphere". | |
| Aug 20, 2022 at 14:14 | comment | added | Gert | Do you mean that the particle is moving on a spherical surface? | |
| Aug 20, 2022 at 14:10 | history | edited | Gert | CC BY-SA 4.0 |
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| Aug 20, 2022 at 14:08 | history | asked | Alex Alex | CC BY-SA 4.0 |