A 2.00-mol sample of a diatomic ideal gas expands slowly and adiabatically from a pressure of...

A two mole sample of an ideal diatomic gas expands slowly and adiabatically from a pressure...

A two mole sample of an ideal diatomic gas expands slowly and adiabatically from a pressure of 5 atm. and a volume of 10 liters up to a final volume of 30 liters. a) What is the final pressure of the gas ?, b) Whatis the heat, work and internal energy?

2.50 mol of a diatomic ideal gas expands adiabatically and quasi-statically. The initial temperature of the...

2.50 mol of a diatomic ideal gas expands adiabatically and quasi-statically. The initial temperature of the gas is 325 K. The work done by the gas during expansion is 7.50 kJ. (a) What is the final temperature of the gas? K (b) Compare your result to the result you would get if the gas were monatomic. (Calculate the final temperature if the gas were monatomic.) K

A 0.520-mol sample of an ideal diatomic gas at 432 kPa and 324 K expands quasi-statically...

A 0.520-mol sample of an ideal diatomic gas at 432 kPa and 324 K expands quasi-statically until the pressure decreases to 144 kPa. Find the final temperature and volume of the gas, the work done by the gas, and the heat absorbed by the gas if the expansion is the following. a) isothermal and adiabatic final temperature volume of the gas wrok done by the gas heat absorbed? K=?, L=?, work done?, heat absorb?

A 0.505-mol sample of an ideal diatomic gas at 408 kPa and 309 K expands quasi-statically...

A 0.505-mol sample of an ideal diatomic gas at 408 kPa and 309 K expands quasi-statically until the pressure decreases to 150 kPa. Find the final temperature and volume of the gas, the work done by the gas, and the heat absorbed by the gas if the expansion is the following. (a) isothermal final temperature K volume of the gas L work done by the gas J heat absorbed J (b) adiabatic final temperature K volume of the gas L...

The volume of an ideal gas is adiabatically reduced from 217 L to 65.6 L. The...

The volume of an ideal gas is adiabatically reduced from 217 L to 65.6 L. The initial pressure and temperature are 1.70 atm and 300 K. The final pressure is 9.07 atm. (a) Is the gas monatomic, diatomic, or polyatomic? (b) What is the final temperature? (c) How many moles are in the gas?

The volume of an ideal gas is adiabatically reduced from 200 L to 74.3 L. The...

The volume of an ideal gas is adiabatically reduced from 200 L to 74.3 L. The initial pressure and temperature are 1.00 atm and 300 K. The final pressure is 4.00 atm. ? = 8.314 J/mol.K , ????????? = 1.4, ??????????? = 1.67 and 1 atm = 1.013 × 10^5 Pa. mol.K (a) Is the gas monatomic or diatomic? (b) What is the final temperature? (c) How many moles are in the gas?

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 =...

An ideal gas with γ = 1.400 expands adiabatically from a pressure of 365.0 Pa and...

An ideal gas with γ = 1.400 expands adiabatically from a pressure of 365.0 Pa and a volume of 70.00 m3 , doing 101.0 J of work while expanding to a final volume. What is its final pressure-volume product?

Two cylinders each contain 0.20 mol of a diatomic gas at 250 K and a pressure...

Two cylinders each contain 0.20 mol of a diatomic gas at 250 K and a pressure of 3.0 atm. Cylinder A expands isothermally and cylinder B expands adiabatically until the pressure of each is 1.0 atm. What is the final temperature of the gas in the cylinder A? Express your answer to two significant figures and include the appropriate units. What is the final volume of the gas in the cylinder A? Express your answer to two significant figures and...

10.0 L of an ideal diatomic gas at 2.00 atm and 275 K are contained in...

10.0 L of an ideal diatomic gas at 2.00 atm and 275 K are contained in a cylinder with a piston. The gas first expands isobarically to 20.0 L (step 1). It then cools at constant volume back to 275 K (step 2), and finally contracts isothermally back to 10.0 L (step 3). a) Show the series of processes on a pV diagram. b) Calculate the temperature, pressure, and volume of the system at the end of each step in...