Writr the FERMI Dirac distribution and draw for kT=0, kT=(1/10)Ef, kT=Ef.

Fermi-Dirac Distribution. (a) Calculate the magnitude of the Fermi momentum and the Fermi wavelength for 4.2...

Fermi-Dirac Distribution. (a) Calculate the magnitude of the Fermi momentum and the Fermi wavelength for 4.2 x1021 electrons confined in a box of volume 1 cm3. (b) Compute the Fermi energy (in eV) for this system. (c) If the electrons are replaced by neutrons (also spin-1/2), compute the Fermi momentum, the Fermi wavelength, and the Fermi energy.

Using the Fermi-Dirac distribution, a) determine the values of energy (in terms of the Fermi energy)...

Using the Fermi-Dirac distribution, a) determine the values of energy (in terms of the Fermi energy) corresponding to probability of occupation of 0.95 and 0.05 at a temperature of 300K. b) What happens to those values if T doubles?

According to the Fermi-Dirac distribution, at room temperature (T=300 K), what is the probability of an...

According to the Fermi-Dirac distribution, at room temperature (T=300 K), what is the probability of an electronic state with an energy 100meV above the Fermi energy being occupied?

Write down the Fermi Dirac distribution function. Use Mathematica to plot the distribution function against energy...

Write down the Fermi Dirac distribution function. Use Mathematica to plot the distribution function against energy for 0K, 5K,10K, 20K, 40K, 80K, an 160K.

09/05 why does the Fermi-Dirac distribution function tend to a step function as T tends to...

09/05 why does the Fermi-Dirac distribution function tend to a step function as T tends to zero? Explain in detail.

In the case of simple harmonic oscillators, with E = Nћω0/(2s + 1), show that Bose-Einstein...

In the case of simple harmonic oscillators, with E = Nћω0/(2s + 1), show that Bose-Einstein and Fermi-Dirac distributions converge to the Boltzmann distribution in the limit KT >> E.

(d) Using the fact that there is one electron per energy state up to the Fermi...

(d) Using the fact that there is one electron per energy state up to the Fermi energy, Ef, and that the total number of electrons in the volume V of the metal, is given by ? = ∫ ?(?)?? (boundaries ?f top, 0 bottom of integral) show that ?f = (ℏ^2/2?)* (( 3?^2 ?)/ ?)^ 2/3 Estimate the value of the Fermi energy at T = 0 K for aluminium, assuming the density, p = 2.7 g/cm^3,the atomic mass is...

The average energy per electron for the 3D electron gas at T=0 is 3*(E fermi) /...

The average energy per electron for the 3D electron gas at T=0 is 3*(E fermi) / 5, where E fermi is the Fermi energy. Now, calculate the average energy per unit volume for electron gas in 1, 2, and 3 dimensions at zero temperature. Your answer should be proportional to the Fermi energy, E fermi, and/or the electron concentration n = N / V (possibly to some power).

Obtain the solution to the initial value problem kt + c(k)kx = 0, k(x,0) =(150 |x|...

Obtain the solution to the initial value problem kt + c(k)kx = 0, k(x,0) =(150 |x| > 1 =150(1 + (1−|x|)/5) |x|≤ 1

1.​Draw a normal curve distribution for stocks that have an expected return of 10% and a...

1.​Draw a normal curve distribution for stocks that have an expected return of 10% and a standard deviation of 20%. Show the values for plus one and minus one standard deviation points