We'll start by using a Gaussian trial function with the variational parameter a, se-ar? trial a. For this part, I recommend that you break the derivation up into steps. Use the general expression for variational energy Sv. trial trial E= trial and the Hamiltonian given below 2ur to show that the variational energy expression corresponding to this function is 3h? a e? a12 42 6n 12 E

We'll start by using a Gaussian trial function with the variational parameter a, se-ar? trial a. For this part, I recommend that you break the derivation up into steps. Use the general expression for variational energy Sv. trial trial E= trial and the Hamiltonian given below 2ur to show that the variational energy expression corresponding to this function is 3h? a e? a12 42 6n 12 E

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Question

We'll start by using a Gaussian trial function with the variational parameter a,
e-ar?
trial
a. For this part, I recommend that you break the derivation up into steps. Use the general expression
for variational energy
Sv.
trial
trial
E=
trial
and the Hamiltonian given below
2 u r ar 4 n 6 r
to show that the variational energy expression corresponding to this function is
3 h a
e? a12
E
¥2 で12

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