fig 1
Given:
eiΘ= cosΘ + i sinΘ (radians)
eπi=-1
Deduced
e2πi=(-1)2
e2πi=1
e(2/3)πi=11/3
e(2/3)iπ=1
e(2/3)iπ=cos(2i/3)+i sin(2i/3)
e(2/3)iπ=-1/2+i(3/2)
-1/2+i(31/2/2)=1
where n is greater than or equal to 1 or n=a/b where a is greater than or equal to 1 and b is odd
1n=1
∴...
sorry for my grammar yes I had meant nonuniform. and from what I understand( if this is not the case please correct me) it wouldn't matter how the electrons were entagled as long as they were entangled before fed into the experiment. as for means of projection i was thinking a small particle...
well i understand that the stern gerlack exeriment utilizes an ununiform magnetic field in order push electrons of different spins into different places.
I have always been interested in entagled electrons. so I thought about the stern gerlack experiment and simly wondered what would happen to entagled electrons in such an experiment. (although the prefix says high school i am able to appreciate more complicated answers).