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| classes:2009:fall:phys4101.001:q_a_1211 [2009/12/11 01:06] – jbarthel | classes:2009:fall:phys4101.001:q_a_1211 [2009/12/15 11:49] (current) – x500_sohnx020 | ||
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| ===liux0756 12/10 22:00=== | ===liux0756 12/10 22:00=== | ||
| I guess the A in the quiz is equal to 1/A in the textbook. | I guess the A in the quiz is equal to 1/A in the textbook. | ||
| - | |||
| ====poit0009 12/10 12:35==== | ====poit0009 12/10 12:35==== | ||
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| < | < | ||
| P_{-\frac{\hbar}{2}}=\frac{\sin^2{\theta}}{4\cos^2{\frac{\theta}{2}}}</ | P_{-\frac{\hbar}{2}}=\frac{\sin^2{\theta}}{4\cos^2{\frac{\theta}{2}}}</ | ||
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| + | ===Daniel Faraday 12/11 830 am=== | ||
| + | Yes, the probability should have theta in it. I think you can consider theta to be a value given in the problem, or something that could be experimentally determined. | ||
| ====Andromeda 12/10 2PM ==== | ====Andromeda 12/10 2PM ==== | ||
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| ===Devlin | ===Devlin | ||
| That is what I get also. | That is what I get also. | ||
| + | ===Captain America 12/11=== | ||
| + | I got the same as Liux, Andromeda, and Devlin. | ||
| + | ===Hydra 12/11=== | ||
| + | That's what I was getting, but is there more work to show for this? It seems, .....too basic??? | ||
| + | ===Dark Helmet 12/11== | ||
| + | Where does the root2 come from? It seems like this whole problem can be done just by reasoning except for the root2. | ||
| + | ===Andromeda 12/11 1:40pm=== | ||
| + | equation 4.121: < | ||
| ====Anaximenes - 23:45 - 12/ | ====Anaximenes - 23:45 - 12/ | ||
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| ===Captain America 1:05 12/11/09=== | ===Captain America 1:05 12/11/09=== | ||
| I don't think it will be 5 questions long, I think he just wants us to know how to do these things. | I don't think it will be 5 questions long, I think he just wants us to know how to do these things. | ||
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| + | === joh04684 0125 12/11/09 === | ||
| + | Just like for the last test, this isn't actually a practice or previous test...It' | ||
| + | |||
| + | === Zeno 12/11/09 === | ||
| + | I would agree with the previous two comments; it's just a sample of what we should know how to do for the exam. This last section since the last exam has covered quite a bit of material, and there' | ||
| + | ===Devlin=== | ||
| + | Also, I don't see a question in number 4, just a bunch of statements. | ||
| + | |||
| + | === Zeno 12/11 === | ||
| + | Yeah, this puzzled me as well. I think we're being subtly asked to find the normalization factor like in problem 4.18 from HW 10. | ||
| + | |||
| + | ===Dark Helmet 12/11=== | ||
| + | I didn't see one either, maybe it was just useful information?? | ||
| + | |||
| + | ===The Doctor 12/11=== | ||
| + | I just assumed it meant to show how to find it using the given relations. | ||
| + | |||
| + | ====Hydra 12/11 post-test!==== | ||
| + | Hey, how do you do the first exam problem from today? | ||
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| + | ===Blackbox === | ||
| + | Well, it was difficult for me and I have no idea what I have to say about the test. | ||
| + | |||
| + | ====Dagny==== | ||
| + | For first order theory, infinite square well, how do we know when to integrate over entire well or just parts of well? | ||
| ====Links==== | ====Links==== | ||