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| classes:2009:fall:phys4101.001:q_a_1106 [2009/11/06 10:40] – prestegard | classes:2009:fall:phys4101.001:q_a_1106 [2009/11/16 22:23] (current) – yk | ||
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| - | ===== Nov 06 (Fri) ===== | + | ===== Nov 06 (Fri) Legendre and Radial WF ===== |
| **Return to Q&A main page: [[Q_A]]**\\ | **Return to Q&A main page: [[Q_A]]**\\ | ||
| **Q&A for the previous lecture: [[Q_A_1104]]**\\ | **Q&A for the previous lecture: [[Q_A_1104]]**\\ | ||
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| **Main class wiki page: ** [[home]] | **Main class wiki page: ** [[home]] | ||
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| ====Hydra 11/4 7pm==== | ====Hydra 11/4 7pm==== | ||
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| ===Esquire 11/06 10:30=== | ===Esquire 11/06 10:30=== | ||
| I would prefer the use of a note card again. Call me crazy but I bet that if an equation sheet were given, the key forms of the equations needed would be lacking. Rather we might need to derive them from basic principles. With the note card, the derivation can be skipped as you will be able to put down the more useful forms of equations. | I would prefer the use of a note card again. Call me crazy but I bet that if an equation sheet were given, the key forms of the equations needed would be lacking. Rather we might need to derive them from basic principles. With the note card, the derivation can be skipped as you will be able to put down the more useful forms of equations. | ||
| + | ===Andromeda 11/6 10:12pm=== | ||
| + | i like making my own equations sheet better, i think in the process of doing so i usually learn better than if i have to only concentrate on the equations professors provide. in any case are we allowed an equation sheet this time too? | ||
| + | ===Devlin 845a=== | ||
| + | We are allowed an equation sheet and it's due Wednesday before the test at noon. :) | ||
| ==== Spherical Chicken 11/4 10:45 ==== | ==== Spherical Chicken 11/4 10:45 ==== | ||
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| Would this term be zero? Why not | Would this term be zero? Why not | ||
| - | ====John Galt 9/6 10:15==== | + | ===John Galt 11/6 10:15=== |
| In answer to Dark Helmet' | In answer to Dark Helmet' | ||
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| "Each eigenstate of an observable corresponds to an eigenvector of the operator, and the associated eigenvalue corresponds to the value of the observable in that eigenstate. If the operator' | "Each eigenstate of an observable corresponds to an eigenvector of the operator, and the associated eigenvalue corresponds to the value of the observable in that eigenstate. If the operator' | ||
| - | ==== prest121 | + | === Dark Helmet |
| - | Looking at the ladder operator technique on p. 162 of Griffiths: Where does the < | + | Thanks John Galt, that really did help. |
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| **Q&A for the previous lecture: [[Q_A_1104]]**\\ | **Q&A for the previous lecture: [[Q_A_1104]]**\\ | ||
| **Q&A for the next lecture: [[Q_A_1109]]** | **Q&A for the next lecture: [[Q_A_1109]]** | ||
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