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| classes:2009:fall:phys4101.001:q_a_1005 [2009/10/04 06:39] – yk | classes:2009:fall:phys4101.001:q_a_1005 [2009/10/05 20:08] (current) – yk | ||
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| - | ===== Oct 5 (Mon) ===== | + | ===== Oct 5 (Mon) delta-function potential Wells===== |
| **Return to Q&A main page: [[Q_A]]**\\ | **Return to Q&A main page: [[Q_A]]**\\ | ||
| - | **Q&A for the previous lecture: [[Q_A_1002]]**\\ | + | **Q&A for the previous lecture: [[Q_A_0930]]**\\ |
| - | **Q&A for the upcoming quiz: [[Q_A_1007]]** | + | **Q&A for the upcoming quiz: [[Q_A_1007]]**\\ |
| + | **Q&A for Quiz 1: [[Q_A_1002]]** | ||
| **If you want to see lecture notes, click [[lec_notes]]** | **If you want to see lecture notes, click [[lec_notes]]** | ||
| **Main class wiki page: ** [[home]] | **Main class wiki page: ** [[home]] | ||
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| ==== prest121 9/30/2009 13:40 ==== | ==== prest121 9/30/2009 13:40 ==== | ||
| I see in Griffiths (and in class) how we determined < | I see in Griffiths (and in class) how we determined < | ||
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| // | // | ||
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| ====Anaximenes - 16:10 - 10/ | ====Anaximenes - 16:10 - 10/ | ||
| What did everyone think of the test? | What did everyone think of the test? | ||
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| ===Schrodinger' | ===Schrodinger' | ||
| I agree with nikif002 totally, the integrals for 1 was out of the blues. Besides that, it was a fair test. | I agree with nikif002 totally, the integrals for 1 was out of the blues. Besides that, it was a fair test. | ||
| + | ===Andromeda -9:06- 10/4/09=== | ||
| + | it might have helped to use the expression for x and p with the a+/a- operator, then you would not have to do integrals! and even though i forgot this on test myself, we should all remember it for the next test. | ||
| - | ====Links==== | + | ===Schrodinger' |
| - | **Return to Q&A main page: [[Q_A]]**\\ | + | The ladder operators only work for the Simple Harmonic Potential, and we were dealing with the infinite potential well. But that is a good idea know the less, construct a raising an lowering |
| - | **Q& | + | |
| - | **Q& | + | |
| + | ===David Hilbert' | ||
| + | I felt like the test covered the right range between regurgitation and doing things completely new - some material was already done but mostly it was a slight change from things we've already done. As far as the integrals in problem 1 go, it seems like since they have been in so many homework problems that you should be able to do them off the top of your head/on the fly, which seems like a bit of work to learn but really useful considering how many times we have done them and probably will end up doing them in the future. | ||
| + | ===Captain America - 10:09- 10/05/09=== | ||
| + | I thought the test was okay even though I confused myself over the ladder operators and probably got a 0 on that question as a result. | ||
| + | ====Cthulhu Food - 10:30- 10/ | ||
| + | On page 78 Griffiths says that κ is real. How can κ be real if E is positive? | ||
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| + | ===Captain America - 10:43- 10/05/09=== | ||
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| + | In the example here we are only considering bound states, which all have a negative E value by the definition of bound states (since the potential is defined as 0 and the bottom of the well is defined as < | ||
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| + | ==== time to move on ==== | ||
| + | |||
| + | It's time to move on to the next Q_A: [[Q_A_1007]] | ||
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| + | -------------------------------- | ||
| + | **Return to Q&A main page: [[Q_A]]**\\ | ||
| + | **Q&A for the previous lecture: [[Q_A_0930]]**\\ | ||
| + | **Q&A for the upcoming quiz: [[Q_A_1007]]**\\ | ||
| + | **Q&A for Quiz 1: [[Q_A_1002]]** | ||