The corrent schrodger wave equation fo...

The corrent schrodger wave equation for an electron with `E ` as total energy and V as potential energy is

A

`(d^(2)psi)/(dx^(2)) + (d^(2)psi)/(dy^(2)) + (d^(2)psi)/(dz^(2)) + (8pi^(2))/(mk^(2)) (E - V) psi = 0`

B

`(d^(2)psi)/(dx^(2)) + (d^(2)psi)/(dy^(2)) + (d^(2)psi)/(dz^(2)) + (8pi m)/(h^(2)) (E - V) psi = 0`

C

`(d^(2)psi)/(dx^(2)) + (d^(2)psi)/(dy^(2)) + (d^(2)psi)/(dz^(2)) + (8pi^(2)m)/(h^(2)) (E - V) psi = 0`

D

`(d^(2)psi)/(dx^(2)) + (d^(2)psi)/(dy^(2)) + (d^(2)psi)/(dz^(2)) + (8pi m^(2))/(h) (E - V) psi = 0`

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AI Generated Solution

To derive the correct Schrödinger wave equation for an electron with total energy \( E \) and potential energy \( V \), we can follow these steps: ### Step 1: Understand the Hamiltonian The Hamiltonian \( H \) for a quantum system is given by the sum of the kinetic energy \( T \) and the potential energy \( V \): \[ H = T + V \] ...

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