Physics, 27.11.2019 20:31, onlymyworld27
Probably still from our high-school days, we all remember the rules of reflection and refraction of light at a plane interface, say between vacuum and a medium with refractive index n: a= a' sin a sinb = n. (3) here we denoted the incident angle as a, the reflection angle a' and the refraction angle b. it is interesting to see if we have a similar situation for material quantum-mechanical waves. for this purpose, let us consider a particle of mass m moving in three-dimensional space with the potential energy step u(x, y, * x < 0, 2 > 0. (4) u the yz-plane is thus the interface separating two half-spaces. u, can be either positive or negative. consider a plane wave corresponding to the particle with energy e > u, incident from x = - towards the separating interface at angle a with the normal to the interface, say in the xy-plane. (a) establish if reflection and refraction of the incident wave take place according to the "optical rules" (3). (b) if so, what quantity would be playing the role of the refractive index n? does it depend on energy e of the particle? (c) the total internal reflection in optics occurs when there is no refracted wave, and the incident wave is fully reflected. can we have the total internal reflection in our case, and what would be the condition for it then?
Answers: 3
Physics, 22.06.2019 10:00, blackjack73
The rocket is fired vertically and tracked by the radar station shown. when θ reaches 66°, other corresponding measurements give the values r = 32700 ft, r¨ = 85 ft/sec2, and θ˙ = 0.019 rad/sec. calculate the magnitudes of the velocity and acceleration of the rocket at this position.
Answers: 3
Physics, 23.06.2019 00:30, struckedblazing
What is the speed vfinal of the electron when it is 10.0 cm from charge 1?
Answers: 1
Probably still from our high-school days, we all remember the rules of reflection and refraction of...
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