Bloch electrons: Show that the spatial probability density for one dimensional free electrons is constant. (b)...

Consider the Free electrons in crystals of BCC and FCC structures with the lattice constant. Plot...

Consider the Free electrons in crystals of BCC and FCC structures with the lattice constant. Plot the band structure (Energy E vs k) along the k-path: k=(0,0,0) -> (pi/a,0,0) -> (pi/a, pi/a,0) -> (pi/a,pi/a,pi/a) -> (0,0,0) for the lowest 6 bands (n=1,2,3,4,5,6) of both structures.

A two-dimensional metallic thin film has square shape with dimension L. Assume a cubic lattice with...

A two-dimensional metallic thin film has square shape with dimension L. Assume a cubic lattice with lattice constant a. a) Derive the density of energy state for this 2D material. b) Find Fermi energy at low temperature.

1) Free electron model: (a) Show that the mean kinetic energy of one electron in the...

1) Free electron model: (a) Show that the mean kinetic energy of one electron in the quantum mechanical free electron model is 3/5 E F at T = 0 K. (b) Calculate the Fermi energy and the mean kinetic energy for potassium in electron volts. Use that K has a relative atomic mass of M = 39.1 u and a density of 856 kg m^−3 . (c) Calculate the corresponding electron velocities. (d) Calculate the density of states at the...

2. Free Electron Gas a. Consider a free electron gas of valence 4s-electrons in potassium (atomic...

2. Free Electron Gas a. Consider a free electron gas of valence 4s-electrons in potassium (atomic mass M=39.1 and density 856 kg/m3). What is the energy (in electron volts, eV) of the highest filled level in the ground state (i.e., the Fermi energy at zero temperature)? b. Calculate the corresponding electron velocities. c. Calculate the density of states at the Fermi energy. How large is the number of electrons in so- called “soft zone” or “Fermi window” of about 4kBT...

Which of the following statements is true for a particle in a one dimensional box? A...

Which of the following statements is true for a particle in a one dimensional box? A - The probability density is given by ψ *(x) ψ(x). B - The probability density is given by ψ *(x) ψ(x)dx. C - The probability density has the same value for all values of x. D - The probability density evaluated at a point in the box is always a real number. Answer Choices: 1) A and D 2) B and D 3) A...

Show that a 3D gas of N free electrons at T = 0 K has kinetic...

Show that a 3D gas of N free electrons at T = 0 K has kinetic energy U0 = (3/5) NEF

All free electrons have a constant magnetic dipole moment with a magnitude of 9.28 × 10-24...

All free electrons have a constant magnetic dipole moment with a magnitude of 9.28 × 10-24 J/T. A) What is the magnetic force between two electrons separated by 0.14 nm (the width of a small atom), if the dipole moments are directed along a common line (like two bar magnets end-to-end)? In Newtons B) Now evaluate the force of electrical repulsion between two electrons at the same distance, assuming the electrons are both point charges, using Coulomb's Law. What is...

The point of this problem is to show how slowly electrons travel on average through a...

The point of this problem is to show how slowly electrons travel on average through a thin wire, even for large values of current. A wire made from copper with a cross-section of diameter 0.740 mm carries a current of 13.0 A. Calculate the "areal current density"; in other words, how many electrons per square meter per second flow through this wire? (Enter your answer without units.) The density of copper is 8.99 g/cm3, and its atomic mass is 63.8....

Show that the radial probability density for a ground state of the hydrogen atom has a...

Show that the radial probability density for a ground state of the hydrogen atom has a maximum at r = ao.

A proton, a neutron, and an electron are trapped in identical one-dimensional infinite potential wells; each...

A proton, a neutron, and an electron are trapped in identical one-dimensional infinite potential wells; each particle in its ground state. a.) At the center of the wells, is the probability density for the proton greater than, less than, or equal to that of the electron? Explain. b.) At the center of the wells, is the probability density for the neutron greater than, less than, or equal to that of the electron? Explain.