Phy5645/AngularMomentumProblem: Difference between revisions

Posted by Group 6:

A system is initally in the state:

${\displaystyle \psi (\theta ,\phi )=1/{\sqrt {5}}Y_{1},-_{1}(\theta ,\phi )+{\sqrt {3/5}}Y_{1},_{0}(\theta ,\phi )+1/{\sqrt {5}}Y_{1},_{1}(\theta ,\phi )}$

Let us now find the value of the opperator ${\displaystyle L_{z}}$ acting on the system as well as the probability of finding each value.

We may first rewright the notation for the system as follows;

${\displaystyle |\psi >=1/{\sqrt {5}}|1,-1>+{\sqrt {3/5}}|1,0>+1/{\sqrt {5}}|1,1>}$

${\displaystyle L_{z}}$ acting on the system produces three values for ${\displaystyle l_{z}}$;

${\displaystyle l_{z}=-\hbar ,0,\hbar }$

The probablity for finding the value ${\displaystyle l_{z}=-\hbar }$ is;

${\displaystyle P_{1}=|<1,-1|\psi >|^{2}=|1/{\sqrt {5}}<1,-1|1,-1>+{\sqrt {3/5}}<1-1|1,0>+1/{\sqrt {5}}<1,-1|1,1>|^{2}}$

${\displaystyle =1/5}$

This can easially be verified since;

${\displaystyle <1,-1|1,0>=<1,-1|1,1>=0}$ and ${\displaystyle <1,-1|1,-1>=1}$

The probablites of measuring ${\displaystyle l_{z}=\hbar }$ are give as follows;

${\displaystyle P_{0}=|<1,0|\psi >|^{2}=|{\sqrt {3/5}}<1,0|1,0>|^{2}=3/5}$