- #1
Beer-monster
- 285
- 0
I'm trying to "sure"up my Quantum Mechanics and found an sheet of mostly conceptual review questions. A sort of "Quantum minima".
I'd like to check my answers to a couple of these.
Firstly:
In terms of state vector the wavefunction is the expansion coefficient (probability amplitude) of a state i.e
\psi = \langle x \left | \psi \right\rangle
What happens if you put an operator (e.g. p) between the bra and ket as if you were calculating an expectation value? i.e.
\left\langle x \left | p \right | \psi \right \rangle
My guess is that the action of the operator on the state vector \left|\psi\right\rangle will collapse the vector to a single basis vector of p \left| p \right\rangle the expression above would reduce to an element of a basis transformation matrix \left\langle x | p \right\rangle
Is that correct...at least in part?
I'd like to check my answers to a couple of these.
Firstly:
In terms of state vector the wavefunction is the expansion coefficient (probability amplitude) of a state i.e
\psi = \langle x \left | \psi \right\rangle
What happens if you put an operator (e.g. p) between the bra and ket as if you were calculating an expectation value? i.e.
\left\langle x \left | p \right | \psi \right \rangle
My guess is that the action of the operator on the state vector \left|\psi\right\rangle will collapse the vector to a single basis vector of p \left| p \right\rangle the expression above would reduce to an element of a basis transformation matrix \left\langle x | p \right\rangle
Is that correct...at least in part?
Last edited:
