Q2. In general, the distribution function can be given as 1 fr = e-f(C,-H) ± 1 1 where B a. Explain the significance of +1, i.e. which distribution is represented by each. b. In the absence of ±1 which distribution do we get? c. Use the Fermi Dirac distrībution function and sketch a graph (f, and E) of the behavior of this function when T = 0K. Clearly mark the position of 'µ'. d. What does 'u' stand for? e. On the same graph in a different colour sketch the behavior of the function when T > OK

Q2. In general, the distribution function can be given as 1 fr = e-f(C,-H) ± 1 1 where B a. Explain the significance of +1, i.e. which distribution is represented by each. b. In the absence of ±1 which distribution do we get? c. Use the Fermi Dirac distrībution function and sketch a graph (f, and E) of the behavior of this function when T = 0K. Clearly mark the position of 'µ'. d. What does 'u' stand for? e. On the same graph in a different colour sketch the behavior of the function when T > OK

College Physics

1st Edition

ISBN:9781938168000

Author:Paul Peter Urone, Roger Hinrichs

Publisher:Paul Peter Urone, Roger Hinrichs

Chapter13: Temperature, Kinetic Theory, And The Gas Laws

Section: Chapter Questions

Problem 38PE: (a) In the deep space between galaxies, me density of atoms is as low as 106atoms/m3, and me...

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Question

Q2. In general, the distribution function can be given as
1
fr =
e-f(@,-H) ± 1
where ß =
a. Explain the significance of +1, i.e. which distribution is represented by each.
b. In the absence of ±1 which distribution do we get?
c. Use the Fermi Dirac distrībution function and sketch a graph (f, and E) of the
behavior of this function when T = OK. Clearly mark the position of 'u'.
d. What does 'u' stand for?
e. On the same graph in a different colour sketch the behavior of the function when
T > OK

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