Calculate the probability that a state in the valence band is occupied by a hole and...

Silicon at 293 K has an energy gap Eg = 1.20 eV. (a) Calculate the probability...

Silicon at 293 K has an energy gap Eg = 1.20 eV. (a) Calculate the probability that an electron state is occupied at the bottom of the conduction band at a temperature of 293 K, i.e., at an energy 1.20 eV above the top of the valence band. (b) Doping silicon with aluminum adds acceptor levels in the gap, 0.067 eV above the top of the valence band of pure silicon, and changes the effective Fermi energy. See Fig. 41-...

5. Semiconductors Gallium Arsenide is a semiconductor with conduction band effective density of states of Nc...

5. Semiconductors Gallium Arsenide is a semiconductor with conduction band effective density of states of Nc = 4.7x1017 cm−3 , valence band effective density of states Nv = 7 × 1018 cm-3, and energy gap Eg=1.43 eV. a. Calculate the intrinsic carrier concentration ni in GaAs at 300 K. b. What is the length of one side of a cube of pure (intrinsic) GaAs that contains, on average, one electron-hole pair at 300 K? c. What is the difference in...

The occupancy probability function can be applied to semiconductors as well as to metals. In semiconductors...

The occupancy probability function can be applied to semiconductors as well as to metals. In semiconductors the Fermi energy is close to the midpoint of the gap between the valence band and the conduction band. Consider a semiconductor with an energy gap of 0.88 eV, at T = 320 K. What is the probability that (a) a state at the bottom of the conduction band is occupied and (b) a state at the top of the valence band is not...

The occupancy probability function can be applied to semiconductors as well as to metals. In semiconductors...

The occupancy probability function can be applied to semiconductors as well as to metals. In semiconductors the Fermi energy is close to the midpoint of the gap between the valence band and the conduction band. Consider a semiconductor with an energy gap of 0.66 eV at T 310 K. What is the probability that (a) a state at the bottom of the conduction band is occupied and (b) a state at the top of the valence band is not occupied?...

A Si sample with ND=1x10^17 cm^-3 has a steady state excess hole concentration maintained at x=0...

A Si sample with ND=1x10^17 cm^-3 has a steady state excess hole concentration maintained at x=0 of 1x10^16 cm^–3. Assume the electric field is zero, ni=1.5x10^10 cm^–3, μn=800 cm^2 /Vs, μp =200cm^2 /Vs, τ n = τ p =10μs, T=300K. A) Plot the hole concentration as a function of distance x into the material, for x=0 to 3 x Lp B) What is the quasi-fermi level separation at x=50μm? C) Calculate and plot the diffusion current density as a function...

Solid State Physics Find the number of free electrons in copper at 300 K with E...

Solid State Physics Find the number of free electrons in copper at 300 K with E = 5 eV and E = 7.1 eV for a sample of volume 1 cm^3. Use the density of states g(E) and the Fermi-Dirac probability function f(E) to estimate the number of free electrons. in a metallic solid You need to multiply a small value of dE (let's say dE = 0.0001 eV) times g(E) and f(E) and the given volume of 1 cm^3....

Problem 2 a) What is the radiant power of the sun? b) What is the radiant...

Problem 2 a) What is the radiant power of the sun? b) What is the radiant power at the surface of the earth? c) Calculation of the solar constant d) How much energy does the earth absorb? e) Using the equilibrium condition to calculate the earth’s temperature (W/O atmosphere) ? (Give a brief comment regarding your findings) f) Using the equilibrium condition to calculate the earth’s real temperature (W/ atmosphere)? (Give a brief comment regarding your findings) Problem 3 (Very...

(a) Sequencing the genome of a newly identified virus gave the following base composition: A =...

(a) Sequencing the genome of a newly identified virus gave the following base composition: A = 33%, G = 33%, C = 17%, and T = 17%. The results suggest that this is a ____________ virus. Group of answer choices single-stranded RNA double-stranded RNA double-stranded DNA single-stranded DNA double-stranded RNA:DNA (b) The activity of a protein is close to zero at pH = 4 and below, high at pH 8 and above. The activity of this protein probably depends upon...

please answear each question 1)At equilibrium, ________. a)the rates of the forward and reverse reactions are...

please answear each question 1)At equilibrium, ________. a)the rates of the forward and reverse reactions are equal b)the value of the equilibrium constant is 1 c)all chemical reactions have ceased d)the rate constants of the forward and reverse reactions are equal e)the limiting reagent has been consumed 2)The equilibrium-constant expression depends on the ________ of the reaction. a) stoichiometry b) mechanism c) the quantities of reactants and products initially present d) temperature e) stoichiometry and mechanism 3)Given the following reaction...

Question 21 Suppose a health insurance company is interested in carrying out an investigation as to...

Question 21 Suppose a health insurance company is interested in carrying out an investigation as to the annual expenditures per household on their healthcare costs. In order to most accurately report their figures, the company decides to ensure “virtual certainty” about their estimates by using a Z value of 3.0 for their calculations. The company conducts a SRS of 843 households and determines the sample average household expenditures on healthcare is $43,257.00. A) Assume the company uses a σ=$879.00. Calculate...