A chunk of aluminum has density of 2.7 g/cm3 and atomic mass of 26.98 g/mole; where...

A metal has a mass density ρ = 8.95 g/cm3 . Assuming the effective mass of...

A metal has a mass density ρ = 8.95 g/cm3 . Assuming the effective mass of electron in the metal m*=0.5m0. The electron rest mass m0 = 9.11×10-31 kg. The atomic mass is 63.5, Avogadro’s number is 6.022×1023 . The Boltzmann constant kB = 1.38×10-23 J/K = 8.62×10-5 eV/K. The reduced Planck constant ћ = 1.55×10-34 J·s. Calculate the following assuming the periodic boundary condition. (a) the concentration of the conduction electrons (assume that each Copper atom has one electron...

The density of aluminum metal is 2.70 g/mL, the atomic mass 26.98 g/mol, the radius of...

The density of aluminum metal is 2.70 g/mL, the atomic mass 26.98 g/mol, the radius of an aluminum atom is 143 picometer and the packing density is 74% theory. Compute Avogardo's number from these data and briefly outline your reasoning/strategy.

The density of aluminum metal is 2.70 g/mL, the atomic mass 26.98 g/mol, the radius of...

The density of aluminum metal is 2.70 g/mL, the atomic mass 26.98 g/mol, the radius of an aluminum atom is 143 picometer and the packing density is 74% of theory. Compute Avogadro's number from this data and PLEASE state which parameter you think is causing the error.

An atomic nucleus can be crudely modeled as a gas of nucleons with a number density...

An atomic nucleus can be crudely modeled as a gas of nucleons with a number density of 0.18 fm-3 (where 1 fm = 10-15 m). Because nucleons come in two different types (protons and neutrons), each with spin 1/2, each spatial wavefunction can hold four nucleons. (a) [10 pts] Calculate the Fermi energy εF of this system, in MeV. Also calculate the Fermi temperature TF. Is it reasonable to treat the nucleus as a degenerate Fermi gas at room temperature?...

A cube of silver (density = 10.5 g/cm^3) has a mass of 90.0 g a resistivity...

A cube of silver (density = 10.5 g/cm^3) has a mass of 90.0 g a resistivity of 1.59x10^-8. The atomic number of silver is 47 and its molar mass is 107.87 g/mol a.) find the length of the cubne on each side. b.)What is the resistance between opposite faces of the cube? c.) assume each silver atom contributes one conduction electron. average drift speed of electrons when potential difference of 10^-5 V is applied to the opposite faces

A sphere of solid aluminum (r = 2.7 g/cm3 ) has a radius R, a mass...

A sphere of solid aluminum (r = 2.7 g/cm3 ) has a radius R, a mass M, and a moment of inertia I0 about its center. A second sphere of solid aluminum has a different mass M’ with a radius 2R. What is the moment of inertia of the second sphere about its center I in terms of the first sphere I0? Mass should not appear in your answer (4 points).

Consider a hypothetical metal that has a simple cubic structure, a density of 9.62 g/cm3, and...

Consider a hypothetical metal that has a simple cubic structure, a density of 9.62 g/cm3, and an atomic weight of 90.5 g/mol. If, at the melting temperature, one out of every 104 atom sites is a vacancy, determine the number of vacancies in one cubic meter of this material. Assume that the energy for the vacancy formation is 96,000 J/mol. Answer should be in units of vacancies/m^3

An aluminum wire having a cross-sectional area of 3.10 ✕ 10−6 m2 carries a current of...

An aluminum wire having a cross-sectional area of 3.10 ✕ 10−6 m2 carries a current of 3.00 A. The density of aluminum is 2.70 g/cm3. Assume each aluminum atom supplies one conduction electron per atom. Find the drift speed of the electrons in the wire.

(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...

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...