Assume that the |+z) and |-z) states for an electron in a magnetic field are energy eigen- vectors with energies E and 0, respectively, and assume that the electron's state at t = 0 is -M Find the probability that we will determine this electron's spin to be in the +x direction at time t |y(0))
Assume that the |+z) and |-z) states for an electron in a magnetic field are energy eigen- vectors with energies E and 0, respectively, and assume that the electron's state at t = 0 is -M Find the probability that we will determine this electron's spin to be in the +x direction at time t |y(0))
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![Assume that the |+z) and |—z) states for an electron in a magnetic field are energy eigen-
vectors with energies E and 0, respectively, and assume that the electron's state at t = 0
is
-M
Find the probability that we will determine this electron's spin to be in the +x direction at
time t
|y(0)):](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F5b55a0fb-5dff-4587-97c0-c3ec381e9c7e%2F7e71a0db-c650-4167-a99a-cdf639c05eb7%2Fl5rtcqd_processed.png&w=3840&q=75)
Transcribed Image Text:Assume that the |+z) and |—z) states for an electron in a magnetic field are energy eigen-
vectors with energies E and 0, respectively, and assume that the electron's state at t = 0
is
-M
Find the probability that we will determine this electron's spin to be in the +x direction at
time t
|y(0)):
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