Electrons of energy 3.8 eV are subjected to a potential V= 0 for x<0 and V= 7.6 eV for x> 0. (a) Find the wavelength of the simusoidal variation of the wave function in the classically allowed region (b) the reflected wave differs from the incident wave by a phase factor. Find this phase factor.

Electrons of energy 3.8 eV are subjected to a potential V= 0 for x<0 and V= 7.6 eV for x> 0. (a) Find the wavelength of the simusoidal variation of the wave function in the classically allowed region (b) the reflected wave differs from the incident wave by a phase factor. Find this phase factor.

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Question

Electrons of energy 3.8 eV are subjected to a potential V= 0 for x < 0 and V= 7.6 eV
for x> 0. (a) Find the wavelength of the simusoidal.variation of the wave function in the classically allowed
region (b) the reflected wave differs from the incident wave by a phase factor. Find this phase factor.

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(d) Prove that for a classical particle moving from left to right in a box with constant speed v, the average position = (1/T) ff x(t) dt = L/2, where T L/v is the time taken to move from left to right. And = : (1/T) S²x² (t) dt L²/3. Hint: Only consider a particle moving from left x = 0 to right x = L = and do not include the bouncing motion from right to left. The results for left to right are independent of the sense of motion and therefore the same results apply to all the bounces, so that we can prove it for just one sense of motion. Thus, the classical result is obtained from the Quantum solution when n >> 1. That is, for large energies compared to the minimum energy of the wave-particle system. This is usually referred to as the Classical Limit for Large Quantum Numbers.