5. Consider the two state system with basis |+) which diagonalizes the Pauli matrix 03.Generally the state of the system at time t can be written as|W(t)) = c+(t)|+) + c_(t)|-).(i) For the Hamiltonian of the system, first take H =functions c+(t) given the initial condition that at time t = 0Eo03. Solve for the coefficient|W(0)) = |-).

The state of the system be defined as, |ψt>=C+t|+>+C-t|->

5. Consider the two state system with basis |±) which diagonalizes the Pauli matrix o3. Generally the state of the system at time t can be written as TW(t)) = c+(t)|+) +c_(t)|–). Eo03. Solve for the coefficient (i) For the Hamiltonian of the system, first take H = functions c+(t) given the initial condition that at time t = 0 |W(0)) = |-).

5. Consider the two state system with basis |±) which diagonalizes the Pauli matrix o3. Generally the state of the system at time t can be written as TW(t)) = c+(t)|+) +c_(t)|–). Eo03. Solve for the coefficient (i) For the Hamiltonian of the system, first take H = functions c+(t) given the initial condition that at time t = 0 |W(0)) = |-).

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Question

5. Consider the two state system with basis |+) which diagonalizes the Pauli matrix 03.
Generally the state of the system at time t can be written as
|W(t)) = c+(t)|+) + c_(t)|-).
(i) For the Hamiltonian of the system, first take H =
functions c+(t) given the initial condition that at time t = 0
Eo03. Solve for the coefficient
|W(0)) = |-).

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