Calculate the entropy change when argon at 298 K and 1 bar in a container of...

Calculate the entropy change when Argon (Cv,m = 3/2 R) at 25ºC and 1 atmis heated...

Calculate the entropy change when Argon (Cv,m = 3/2 R) at 25ºC and 1 atmis heated to   89 ∘C    in a closed container of volume 500 cm3 (constant volume)

Calculate the change in entropy (in J/K) for the following reaction at 298 K: C(s) +...

Calculate the change in entropy (in J/K) for the following reaction at 298 K: C(s) + H2O(g) → CO(g) + H2(g) Use entropy for graphite (diamond is too expensive). Notice that the entropy of the solid is much smaller than the entropy of the gases!

The Henry’s law constant for O2 in water is 49,500 bar at 298 K and 63,400...

The Henry’s law constant for O2 in water is 49,500 bar at 298 K and 63,400 bar at 313 K. a) Calculate the number of grams of dissolved O2 per kg of water at 298 K if pO2 = 0.21 bar. b) Oxygen (nonpolar) and water (highly polar) are not expected to form ideal solutions. It is an excellent approximation, however, to assume activity coefficient of O2(HL) = 1. Why? c) The vast majority of substances that dissolve in water...

Calculate the change in entropy (in J/K) when 38.7 g of nitrogen gas is heated at...

Calculate the change in entropy (in J/K) when 38.7 g of nitrogen gas is heated at a constant pressure of 1.50 atm from 22.9 ºC to 88.2 ºC. (The molar specific heats are Cv is 20.8 J/(mol-K) and Cp is 29.1 J/(mol-K) .)

Calculate the change in entropy (in J/K) when 52.8 g of nitrogen gas is heated at...

Calculate the change in entropy (in J/K) when 52.8 g of nitrogen gas is heated at a constant pressure of 1.50 atm from 16.5 ºC to 62.8 ºC. (The molar specific heats are Cv is 20.8 J/(mol-K) and Cp is 29.1 J/(mol-K) .)

Calculate the change in entropy for one mole of ideal gas which expands from an initial...

Calculate the change in entropy for one mole of ideal gas which expands from an initial volume of 2 L and initial temperature of 500 K to a final volume of 6 L under the following conditions. P(initial) refers to the pressure when T(initial)= 500K, V(initial)= 2 L. a) Irreversible expansion against a constant pressure of Pinitial/2 b) Irreversible expansion against a vacuum...a 'free expansion'. c) Adiabatic irreversible expansion against a constant pressure of Pfinal d) Adiabatic reversible expansion

The standard molar entropy of benzene is 173.3 J/K-mol. Calculate the change in its standard molar...

The standard molar entropy of benzene is 173.3 J/K-mol. Calculate the change in its standard molar Gibbs energy when benzene is heated from 25C to 45C.

For each case determine the change in entropy for the surroundings and the universe, when 1...

For each case determine the change in entropy for the surroundings and the universe, when 1 mole of a diatomic gas expands from its initial volume of 5 L and 31.5 ◦C to: CASE (a) a final volume of 25 L reversibly and isothermically. CASE (b) irreversibly and isothermically against an external pressure of 1 atm. CASE (c) a final volume of 25 L reversibly and adiabatically. Yes, it is zero, but you have to demonstrate it. CASE (d) irreversibly...

A sample containing 2.50 moles of He (1 bar, 345 K ) is mixed with 1.75...

A sample containing 2.50 moles of He (1 bar, 345 K ) is mixed with 1.75 mol of Ne (1 bar, 345 K ) and 1.50 mol of Ar (1 bar, 345 K ). Calculate ΔGmixing. Calculate ΔSmixing. Express your answer with the appropriate units. Calculate ΔA for the isothermal compression of 3.11 mol of an ideal gas at 321 K from an initial volume of 60.0 L to a final volume of 20.5 L.​ Does it matter whether the...

1. Methane and oxygen exist in a stoichiometric mixture at 500 kPa and 298 K. They...

1. Methane and oxygen exist in a stoichiometric mixture at 500 kPa and 298 K. They are ignited and react at constant volume. Combustion is complete. The final products are at 1500 K. a. If the reaction above occurs in an insulated container, find the final temperature and pressure of the products. b. If the same mixture reacts at constant pressure, find the final temperature. c. Suppose the products from both #2 and #3 then undergo adiabatic expansion in a...