1 mole methane gas (NOT ideal gas) isothermally expands from initial pressure of 5 bar to...

One mole of an ideal gas expands reversibly and isothermally from 10. bar to 1.0 bar...

One mole of an ideal gas expands reversibly and isothermally from 10. bar to 1.0 bar at 298.15K. (i)Calculate the values of w, q, ∆U and ∆H? (ii)Calculate w if the gas were to have expanded to the same final state against a constant pressure of 1 bar.

1 mole of ideal gas at 270C is expanded isothermally from an initial pressure of 3...

1 mole of ideal gas at 270C is expanded isothermally from an initial pressure of 3 atm to afinal pressure of 1 atm in two ways: (a) reversibly and (b) against a constant external pressure of 1 atm. Calculate q, w, ΔU, ΔH and ΔS for each path.

A mole of a monatomic ideal gas is taken from an initial pressure p and volume...

A mole of a monatomic ideal gas is taken from an initial pressure p and volume V to a final pressure 3p and volume 3V by two different processes: (I) It expands isothermally until its volume is tripled, and then its pressure is increased at constant volume to the final pressure. (II) It is compressed isothermally until its pressure is tripled, and then its volume is increased at constant pressure to the final volume. Show the path of each process...

2.1 mol of an ideal gas isothermally expands from an initial pressure of 28 atm to...

2.1 mol of an ideal gas isothermally expands from an initial pressure of 28 atm to a final pressure of 7 atm. Calculate separately for two temperatures, 0°C and 25°C, each of the following. (Include the sign of the value in your answer.) (a) the work done on the gas (in kJ) for T = 0°C and for T = 25°C (b) the change of internal energy of the gas (in kJ) for T = 0°C and for T =...

Propane gas at 100 c is compressed isothermally from an initial pressure of 1 bar to...

Propane gas at 100 c is compressed isothermally from an initial pressure of 1 bar to a final pressure of 5 bar. a. Determine the Delta H of the process b. Determine the Delta S of the process c. Comment on the differences between a closed and an open system undergoing this change in terms of Q,W,H and S.

1 mole of a non-ideal gas is compressed isothermally at 100°C from 1 bar to 50...

1 mole of a non-ideal gas is compressed isothermally at 100°C from 1 bar to 50 bar. What are the heat and work needed for this (reversible) compression if the gas conforms to the principle of corresponding states? The critical properties of the non-ideal gas are Tc = 406 K and Pc = 11.3 MPa.

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

One mole of an ideal gas at 25 degrees celsius and one atmosphere pressure expands adiabatically...

One mole of an ideal gas at 25 degrees celsius and one atmosphere pressure expands adiabatically to twice its original volume, then compresses isothermally back to the original volume, then proceeds isochorically back to the initial conditions. How much work is done by the gas? work done by the ideal gas.

1.3 mole of an ideal gas at 300 K is expanded isothermally and reversibly from a...

1.3 mole of an ideal gas at 300 K is expanded isothermally and reversibly from a volume V to volume 4V. What is the change in entropy of the gas, in J/K?

One mole of an ideal gas at atmospheric pressure expands isobarically from a volume of 1m3...

One mole of an ideal gas at atmospheric pressure expands isobarically from a volume of 1m3 to a volume of 2m3. 1 - Find the initial and final temperatures of the gas 2 - Find the work done by the gas 3 - Find the heat added to the gas