A two-state quantum system has energy eigenvalues te corresponding to normalised [w. +w_] states y.. At time t =0 the system is in the quantum state Find the 10000 × h probability that the system will be in the same state at time t = (6e) where h is the Planck's constant.

A two-state quantum system has energy eigenvalues te corresponding to normalised [w. +w_] states y.. At time t =0 the system is in the quantum state Find the 10000 × h probability that the system will be in the same state at time t = (6e) where h is the Planck's constant.

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A two-state quantum system has energy eigenvalues te corresponding to normalised
[w. +w_]
states y. At time t = 0 the system is in the quantum state
Find the 10000 x
+
h
probability that the system will be in the same state at time t=
(6€)
where h is the
Planck's constant.

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