Using the machinery of statistical mechanics calculate the internal energy (U), the function of Helmholtz (F),...

In words and formulas, explain what these quantities are and when to use them. Internal energy,...

In words and formulas, explain what these quantities are and when to use them. Internal energy, Uint Enthalpy, H Microstates vs. macrostates Gibbs free energy, G.

You are given an ideal gas which undergoes a process where the internal energy U is...

You are given an ideal gas which undergoes a process where the internal energy U is a function of the volume, V according to U = bV^ f , where b and f are known constants. You know the ratio of specific heats, γ. (a) Suppose the internal energy is increase by a finite amount ∆. What work is performed by the gas. (b) What amount of heat is transferred to the gas in the situation (a). (c) What is...

A. Using given data, calculate the change in Gibbs free energy for each of the following...

A. Using given data, calculate the change in Gibbs free energy for each of the following reactions. In each case indicate whether the reaction is spontaneous at 298K under standard conditions. 2H2O2(l)→2H2O(l)+O2(g) Gibbs free energy for H2O2(l) is -120.4kJ/mol Gibbs free energy for H2O(l) is -237.13kJ/mol B. A certain reaction has ΔH∘ = + 35.4 kJ and ΔS∘ = 85.0 J/K . Calculate ΔG∘ for the reaction at 298 K. Is the reaction spontaneous at 298K under standard conditions?

Calculate the standard entropy, ΔS°rxn, of the following reaction at 25.0 °C using the data in...

Calculate the standard entropy, ΔS°rxn, of the following reaction at 25.0 °C using the data in this table. The standard enthalpy of the reaction, ΔH°rxn, is –633.1 kJ·mol–1. 3C2H2(g)==>C6H6(l) Delta S rxn = Then calculate the standard gibbs free energy of the reaction Delta G rxn Delta G rxn=

11. Calculate enthalpy of rx using the following information (enthalpy of formation, or enthalpy of rx...

11. Calculate enthalpy of rx using the following information (enthalpy of formation, or enthalpy of rx of other chemical reactions 12. How much energy is released when 2.0 g of methane is combusted in open air (given the enthalpy of reaction). 13. If 1.00 g of ethanol is burned and heats up 100g of water by 5 degrees, what is the heat of combustion of ethanol? (given the specific heat capacity of water)

Using ΔH°f values found in Appendix D, calculate (a) the standard enthalpy change for the dissolution...

Using ΔH°f values found in Appendix D, calculate (a) the standard enthalpy change for the dissolution of AlCl3(s) in water, then (b) calculate the final temperature of the solution when 2.50 g of AlCl3(s) is dissolved in 52.50 g of water at 20.0°C. Use 4.18 J/g°C for the specific heat of the solution. Remember to write a complete BALANCED reaction. Appendix D: AlCl3(s) = -705.6 kJ/mol

1. Find values of residual enthalpy for ethylene at 400 K and 25 bar using Peng-Robinson...

1. Find values of residual enthalpy for ethylene at 400 K and 25 bar using Peng-Robinson equation of state. 2. Find values of residual Gibbs energy, enthalpy and entropy for n-heptane at 500 K and 100 bar using Virial equation of state. 3. Estimate the values of Compressibility factor, enthalpy and entropy for Benzene and cyclohexane if it compressed from 650 K and 60 bar to 500 K and 110 bar. 4. Calculate ΔU and ΔH for 1 kg of...

Part A) Two identical pieces of machinery are lifted from the sidewalk to the roof of...

Part A) Two identical pieces of machinery are lifted from the sidewalk to the roof of a 100.0 m tall building. One is lifted directly to the building's roof and has a change in internal energy of 1059 kJ. The other is lifted to twice the height of the building and then lowered to the roof. What is the change in internal energy of the second piece of machinery once it has reached the roof? Part B) Indicate the sign...

A Diesel cycle engine is analyzed using the cold air standard method. Given the conditions at...

A Diesel cycle engine is analyzed using the cold air standard method. Given the conditions at state 1, compression ratio (r), and cutoff ratio (rc) determine the efficiency and other values listed below. Note: The specific heat ratio and gas constant for air are given as k=1.4 and R=0.287 kJ/kg-K respectively. Given Values T1 (K) = 326 P1 (kPa) = 105 r = 16.5 rc = 1.8 a) Determine the specific internal energy (kJ/kg) at state 1. b) Determine the...

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...