How Do You Calculate the Expectation Value of Momentum in Quantum Mechanics?

atomicpedals · Dec 18, 2011

I've managed to get myself confused on a seemingly simple point of mathematics. When I calculate the expectation value of momentum in quantum mechanics

<p>=\int{\psi* \frac{\hbar}{i} \frac{d}{dx} \psi dx}
To what should I be applying the derivative? \psi?

Dick · Dec 18, 2011

Of course you would apply it to ψ. What else?

atomicpedals · Dec 18, 2011

Order of operation would rule out complex conjugate of \psi. So, instead of being like <x> which can simplify to

<x>=\int{|\psi|^{2}xdx}
it would instead be
<p_x>=\int{\psi * \frac{\hbar}{i} \frac{d \psi}{dx} dx}

Dick · Dec 18, 2011

atomicpedals said:

Order of operation would rule out complex conjugate of \psi. So, instead of being like <x> which can simplify to

<x>=\int{|\psi|^{2}xdx}
it would instead be
<p_x>=\int{\psi * \frac{\hbar}{i} \frac{d \psi}{dx} dx}

Yes. That's it.

atomicpedals · Dec 18, 2011

Right on, thanks.

How Do You Calculate the Expectation Value of Momentum in Quantum Mechanics?

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