The 'i' in the momentum operator

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The momentum operator is -i*h bar * derivative wrt x. But won't this lead sometimes to complex expected values of momentum? What does this mean physically, since complex values can't be measured.
 
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All operators in QM, including this one, are Hermitian. The eigenvalues of a Hermitian operator are real, not complex. (Which is a good thing, as you point out. Complex values would be a problem.)
 
The i is actually needed to make the momentum operator Hermitian!
 
xepma said:
The i is actually needed to make the momentum operator Hermitian!
Exactly! :smile:
 
The operator d/dx is not Hermitian, so you add a -i to it and the i's cancel out to -1 and then the - cancels out to +1
 
aspy591 said:
But won't this lead sometimes to complex expected values of momentum?

Others have given the reasons why the expectation value of p must always be real.

From a practical point of view, when you calculate such an expectation value, you usually get an expression that contains i, to start with. But you can always eliminate i from these expectation values by using identities such as

\sin x = \frac{1}{2i} \left( e^{ix} - e^{-ix} \right)

If you can't, then you've made a mistake in your algebra somewhere. :wink:
 
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