The entropy of a certain Einstein solid changes from 305.2kB to 338.1kB when a unit ε...

A small Einstein solid consists of 2000 atoms, each free to oscillate in three dimensions. The...

A small Einstein solid consists of 2000 atoms, each free to oscillate in three dimensions. The solid contains a total of 30 000 units of energy. (a) Calculate the entropy of the solid. (b) If the temperature of the solid is 650 K, what is the approximate value of one unit of energy (in J)? (c) What is the resonant frequency of the oscillators in the Einstein solid?

The net entropy changes when a 33 g -ice cube initially at 0 ?C melts in...

The net entropy changes when a 33 g -ice cube initially at 0 ?C melts in a room. a) What is the net entropy change, if room temperature T1= 19 ?C . Express your answer to two significant figures and include the appropriate units. b) What is the net entropy change, if room temperature T2= 25 ?C . Express your answer to two significant figures and include the appropriate units.

A carbon nanoparticle (very small particle) contains 7400 carbon atoms. (a) According to the Einstein model...

A carbon nanoparticle (very small particle) contains 7400 carbon atoms. (a) According to the Einstein model of a solid, how many oscillators are in this particle? (b) If the particle contains 1.5 x 10^8 units of energy, what is the entropy of the particle?

Determine the increase in entropy of solid magnesium when the temperature is increased from 300K to...

Determine the increase in entropy of solid magnesium when the temperature is increased from 300K to 800K at atmospheric pressure. The heat capacity is given by the following relation: Cp = 26.04 + 5.586 * 10^(-3)T + 28.476 * 10(4)T^(-2). Where Cp is in J/mol K, and?S =  ?Cp (dT/T)

1. Consider a three level system in which the energies are equally spaced (by energy ε);...

1. Consider a three level system in which the energies are equally spaced (by energy ε); each of the levels has certain (nonzero) degeneracy g . A. Write down the general expression for the average energy and the partition function of the system. B. Compute the occupations for ε = kT, when (i) all the states are singly degenerate and (ii) when the degeneracies are g0 = 1, g1 = 1, g2 = 3. Here gj represents the degeneracy of...

1. One mole of an ideal monatomic gas is confined to a rigid container. When heat...

1. One mole of an ideal monatomic gas is confined to a rigid container. When heat is added reversibly to the gas, its temperature changes from 300 K to 350K. (a) How much heat is added? (b) What is the change in entropy of the gas?

Here we calculate the partition function, molar translational internal energy, and molar translational entropy of a...

Here we calculate the partition function, molar translational internal energy, and molar translational entropy of a monatomic gas. The single particle translational partition function is qtrans=VΛ3) where Λ is the thermal wavelength and teh entropy is given by the Sackur-Tetrode equation S=N*kB*ln((qtrans*e^5/2)/N). A. Calculate the single particle translational partition function q for neon gas at T=298K and V=22.4L. Assume neon behaves ideally. B. Based on your answer in Part A, calculate the molar translational internal energy of neon at at...

An insulated container has 2.00kg of water at 25◦C to which an unknown amount of ice...

An insulated container has 2.00kg of water at 25◦C to which an unknown amount of ice at 0◦C is added. The system comes to an equilibrium temperature of 20◦C. The heat capacity for water is 4190 J and the heat of fusion for ice is kg·K kJ LF =334kg. (a) Determine the amount of ice that was added to the water. (b) What is the change in the entropy associated with the ice melting? (c) What is the change in...

15. The entropy change for a certain nonspontaneous reaction at 50 °C is 140 J/K. (a)...

15. The entropy change for a certain nonspontaneous reaction at 50 °C is 140 J/K. (a) Is the reaction endothermic or exothermic? (b) What is the minimum value of ΔH (in kJ) for the reaction? 16. What is the sign of ΔS in each of the following? (a) Freezing of water at 2 °C (b) Corrosion of iron metal (c) Expansion of a gas to fill the available volume (d) Separation of an unsaturated aqueous solution of potassium chloride into...

What is the increase in entropy if 14 mol of N_2 are heated from 20.0◦C to...

What is the increase in entropy if 14 mol of N_2 are heated from 20.0◦C to 30.0◦C at constant pressure, assuming nitrogen behaves as an ideal gas? (b) A kettle holds 1.50 kg of water. Calculate the internal energy increase of the water as its temperature increases from 20.0◦C to 90.0◦C. The specific heat capacity of water is 4.18 kJ kg −1.