1. Sketch energy dispersion relations for:- (i) a linear monoatomic lattice, (ii) a linear diatomic lattice.

(c) Describe in detail, including a sketch if appropriate, the dispersion curves for a one dimensional...

(c) Describe in detail, including a sketch if appropriate, the dispersion curves for a one dimensional diatomic lattice, where atoms are charged and the atoms have different atomic masses. Use the diagram to explain the concept of a transverse optical phonon.

Consider a two-dimensional solid measuring LxL in which the atoms are arranged in a square lattice...

Consider a two-dimensional solid measuring LxL in which the atoms are arranged in a square lattice with lattice parameter a. There is only a single atomic species in the solid, and the valence is equal to one, that is, each atom contributes one electron to the electron “sea”. (i) Sketch the reciprocal lattice for this crystal and include units. (ii) Compute the Fermi wave-vector kF. (iii) Make a two-dimensional sketch and indicate, the Fermi circle (i.e. the occupied states at...

1.How much energy (in J) does it take to expand 2.30 moles of a monoatomic ideal...

1.How much energy (in J) does it take to expand 2.30 moles of a monoatomic ideal gas from 295 mL to 583 mL at a constant temperature of 59.0 0C? 2. 3.2 moles of an ideal gas is in a piston at 275cm3 at temp 253C. Constant pressure pushing the piston to volume 350cm3. How much heat is absorbed?

A discrete time system can be i. Linear or non-linear ii. Time invariant or Time Variant...

A discrete time system can be i. Linear or non-linear ii. Time invariant or Time Variant iii. Causal or noncausal iv. Stable or unstable v. Static Vs Dynamic Examine the following systems with respect to every property mentioned above and give a brief explanation. a. y[n] = x[n]δ[n − 1] b. y[n] = x[n] + nu[n + 1] c. y(n) = x(2. n) d. y(n) = 3. x(n)

State the orbital degeneracy of the levels in a hydrogen atom that have energy (i)-hcRH; (ii)...

State the orbital degeneracy of the levels in a hydrogen atom that have energy (i)-hcRH; (ii) -1/9 hcR H; (iii) -1/25 hcRH.

For each of the following production functions, (i) sketch an isoquant, (ii) indicate whether each marginal...

For each of the following production functions, (i) sketch an isoquant, (ii) indicate whether each marginal product is diminishing, constant, or increasing points, and (iii) indicate whether the production function shows constant, decreasing, or increasing returns to scale. A) Q = f(L, K) = L2K3 B) Q = f(L, K) = 2L + 6K C) Q = f(L, K) = (minL, K) (1/2)

Which of the following statements concerning the linear correlation coefficient are true? I: If the linear...

Which of the following statements concerning the linear correlation coefficient are true? I: If the linear correlation coefficient for two variables is zero, then there is no relationship between the variables. II: If the slope of the regression line is negative, then the linear correlation coefficient less than one. III: The value of the linear correlation coefficient always lies between -1 and 1. IV: A linear correlation coefficient of 0.62 suggests a stronger linear relationship than a linear correlation coefficient...

1.Rank the following three ionic compounds in order of increasing lattice energy: NaF, KCl, MgO. (Your...

1.Rank the following three ionic compounds in order of increasing lattice energy: NaF, KCl, MgO. (Your answer should have highest lattice energy first, lowest last.) A) NaF > KCl > MgO B) NaF > MgO > KCl C) KCl > NaF > MgO D) KCl > MgO > NaF E) MgO > NaF > KCl F) MgO > KCl > MgO 2.In which ONE of the following compounds would the bonding be expected to have the highest percentage of ionic...

" Latent heat" refers to I. How much energy is involved in melting a substance II....

" Latent heat" refers to I. How much energy is involved in melting a substance II. How much energy is involved in boiling a substance III. How much energy is involved in heating a substance from the melting point to the boiling point IV. How much energy is involved in cooling a substance from the boiling point to the melting point.

(c) With reference to the Molecular Orbitals (MOs) theory: (i) Sketch the MO diagram of Ne2,...

(c) With reference to the Molecular Orbitals (MOs) theory: (i) Sketch the MO diagram of Ne2, justify and discuss its energy level diagram. [4 marks] (ii) Write its molecular electron configuration. [0.5 mark] (iii) Define and identify the HOMO and LUMO. [0.5 mark] (iv) Predict the stability of the Ne2 molecule on the basis of its bond order. [2 mark]