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Verbatim question for GR8677 #49
Quantum Mechanics}Schrodinger Equation

Recall the Time-independent Schrodinger Equation,

where H=-\frac{\hbar^2}{2m}\psi '' + V(x) \psi = E\psi.

The classical Hamiltonian is H=\frac{p^2}{2m} + V(x), where one sees the only difference is p \rightarrow \frac{\hbar}{i}\frac{d}{dx}. From the classical Hami, one can directly reach the Hami operator in the TISE via substituting a differential operator for momentum, as in choice (B).

See below for user comments and alternate solutions! See below for user comments and alternate solutions!
Alternate Solutions
sunnysunny
2019-08-07 04:43:51
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Comments
ernest21
2019-08-23 02:02:18
I thought of it in terms of the selection rules , . If the initial state has , which corresponds to spherical symmetry in the wavefunction, then according to these the final state must have , which is not spherically symmetric. candle in the tombNEC
joshuaprice153
2019-08-09 06:41:39
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sunnysunny
2019-08-07 04:43:51
The information you share is very useful. It is closely related to my work and has helped me grow. Thank you! subway surfers\r\nAlternate Solution - Unverified
UNKNOWNUMBER
2018-10-15 01:52:20
Easy free points!NEC

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