Calculate the work done by an external agent during an isothermal compression of 6.12 mol of...

An ideal gas is brought through an isothermal compression process. The 4.00 mol of gas goes...

An ideal gas is brought through an isothermal compression process. The 4.00 mol of gas goes from an initial volume of 259.4×10−6 m3 to a final volume of 110.6×10−6 m3 . If 8070 J is released by the gas during this process, what are the temperature ? and the final pressure ?? of the gas? ?= K ?f= Pa

Solve the following: a) Calculate ΔU for the irreversible isothermal compression of 1 mole of ideal...

Solve the following: a) Calculate ΔU for the irreversible isothermal compression of 1 mole of ideal gas at 290 K from an initial pressure of 3.2 KPa to a final pressure of 46 kPa by an constant external pressure of 46 kPa. Give your answer in kilojoules. b) Consider a reversible isothermal expansion (or compression) of 4.0 mole(s) of an ideal gas at 28°C from 6.5 atm to 3.0 atm. Calculate the amount of heat transferred to the system in...

An ideal gas is brought through an isothermal compression process. The 3.00 mol3.00 mol of gas...

An ideal gas is brought through an isothermal compression process. The 3.00 mol3.00 mol of gas goes from having an initial volume of 240.7 cm3240.7 cm3 to 104.6 cm3.104.6 cm3. If 2.210×103 cal2.210×103 cal is released by the gas during this process, what are the temperature ?T of the gas and the final pressure ?f?pf? The gas constant is ?=8.31 J/mol⋅K,R=8.31 J/mol⋅K, and there are 4.19 J/cal.4.19 J/cal. ?=T= K ?

A vessel with a movable piston contains 1.90 mol of an ideal gas with initial pressure...

A vessel with a movable piston contains 1.90 mol of an ideal gas with initial pressure Pi = 2.03 ✕ 105 Pa, initial volume Vi = 1.00 ✕ 10−2 m3, and initial temperature Ti = 128 K. (a) What is the work done on the gas during a constant-pressure compression, after which the final volume of the gas is 2.50 L? J (b) What is the work done on the gas during an isothermal compression, after which the final pressure...

Show that the work done by an ideal gas during an isothermal change of state (from...

Show that the work done by an ideal gas during an isothermal change of state (from initial state 1 to final state 2), in a closed container is given by; 1W2=m.R.T(ln(v2/v1)) A piston-cylinder device contains 0.2 kg of air, initially at 27oC and 100 kPa. The air is then slowly compressed in an isothermal process to a final pressure of 400 kPa. Determine: (a) The work done during this process, and (b) The heat transferred.

Calculate the work done on and by the system and surroundings in an isothermal gas expansion...

Calculate the work done on and by the system and surroundings in an isothermal gas expansion at 300K from 10L to 15L for 2 moles of helium. Determine the transfer of heat to and from the system and surroundings as well. (4 values total)

Suppose 4.00 mol of an ideal gas undergoes a reversible isothermal expansion from volume V1 to...

Suppose 4.00 mol of an ideal gas undergoes a reversible isothermal expansion from volume V1 to volume V2 = 8V1 at temperature T = 300 K. Find (a) the work done by the gas and (b) the entropy change of the gas. (c) If the expansion is reversible and adiabatic instead of isothermal, what is the entropy change of the gas?

Derive the expression for work done by expanding a van der Waal's system. Express the relationship:...

Derive the expression for work done by expanding a van der Waal's system. Express the relationship: a) in terms of volume b) in terms of pressure c) Calculate the work done by isothermal expansion of a van der Waals gas from 1 L to 2 L, and compare the result to the work done in an ideal system. Comment on why the values are different.

a) Calculate delta S(system) for the reversible heating of 1 mol of ethane from 298K to...

a) Calculate delta S(system) for the reversible heating of 1 mol of ethane from 298K to 1500 K at constant pressure. Use Cp = 5.351 + 177.669x10-3 T – 687.01x10-7 T ^2 + 8.514x10-9 T ^3 (J/mol K). Consider the reversible Carnot cycle discussed in class with 1 mol of an ideal gas with Cv=3/2R as the working substance. The initial isothermal expansion occurs at the hot reservoir temperature of Thot=600C from an initial volume of 3.50 L to a...

A Carnot engine uses the expansion and compression of n moles of argon gas, for which...

A Carnot engine uses the expansion and compression of n moles of argon gas, for which CV=(3/2)R. This engine operates between temperatures TC and TH. During the isothermal expansion a→b, the volume of the gas increases from Va to Vb=2Va. a)Calculate the work done during the isothermal expansion a→b. Express your answer in terms of the variables n, TH, and gas constant R. b)Calculate the work Wbc done during the adiabatic expansion b→c. Express your answer in terms of the...