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22 Cards in this Set

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The time dependent schrodinger equation

The time independent schrodinger equation

Maxwell's equations

the quadratic equation

phase velocity

w/k

group velocity

dw/dk (partial?)

Hermitian operator

psi*H^psi = (H^psi)*psi

momentum operator, p^

p^ = -i (del)

force on a particle moving through magnetic and electric field

F = q(E + (v x B)

Va - Vb (potential)

Va - Vb = - int(E.dl)

Electric field =

E = - del (V)

Energy density in a magnetic field

energy density in an electric field

Poynting vector

(normally N)

(normally N)

Poynting's theorem (differential)

speed of light in terms of mu and epsilon

write out maxwell's eqs then derive the wave equation. go on, you can do it.

woo

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.

dU =

dW + dq = -PdV +TdS

variance

<(x-mu)^2> =

standard deviation

= sqrt(variance)

h