Solution: First, (\langle S_x \rangle = \langle \psi | S_x | \psi \rangle = \frac\hbar2 \langle \psi | \sigma_x | \psi \rangle).
An electron is in state (|\psi\rangle = \frac1\sqrt2 \beginpmatrix 1 \ i \endpmatrix). Find (\langle S_x \rangle) and (\langle S_y \rangle).
We also define ( \hatL^2 = \hatL_x^2 + \hatL_y^2 + \hatL_z^2 ), which commutes with each component:
A particle is in the state [ \psi(\theta,\phi) = \sqrt\frac158\pi \sin\theta \cos\theta e^i\phi. ] Find the expectation value ( \langle L_z \rangle ) in units of (\hbar).