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22 Cards in this Set
- Front
- Back
The time dependent schrodinger equation |
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The time independent schrodinger equation |
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Maxwell's equations |
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the quadratic equation |
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phase velocity |
w/k |
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group velocity |
dw/dk (partial?) |
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Hermitian operator |
psi*H^psi = (H^psi)*psi |
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momentum operator, p^ |
p^ = -i (del) |
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force on a particle moving through magnetic and electric field |
F = q(E + (v x B) |
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Va - Vb (potential) |
Va - Vb = - int(E.dl) |
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Electric field = |
E = - del (V) |
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Energy density in a magnetic field |
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energy density in an electric field |
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Poynting vector |
(normally N) |
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Poynting's theorem (differential) |
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speed of light in terms of mu and epsilon |
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write out maxwell's eqs then derive the wave equation. go on, you can do it.
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woo |
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if F = U - TS derive me a maxwell relation. |
begin by getting dF, then in turn consider dV, dT=0 and take partial deriv. wrt the other. then double differentiate that shiz and voilla. |
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dU = |
dW + dq = -PdV +TdS |
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variance |
<(x-mu)^2> = |
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standard deviation |
= sqrt(variance) |
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h |