One-third mole of a monatomic ideal gas expands adiabatically and does 640 J of work. By...

An ideal monatomic gas at 405 K expands adiabatically and reversibly to three times its volume....

An ideal monatomic gas at 405 K expands adiabatically and reversibly to three times its volume. What is its final temperature (in K)?

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.

One mole of an ideal gas does 3000 J of work on its surroundings as it...

One mole of an ideal gas does 3000 J of work on its surroundings as it expands isothermally to a final pressure of 1.00 atm and volume of 25.0 L. Determine: a) the initial volume ? b) the temperature of the gas? (Note: 1 atm = 1.01 x 105Pa, universal gas constant R = 8.31 J/mol K, 1 L = 10-3m3)

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

1. An ideal monatomic gas, with 24.05 moles, expands adiabatically from 0.500m^3 to 1.75 m^3. IF...

1. An ideal monatomic gas, with 24.05 moles, expands adiabatically from 0.500m^3 to 1.75 m^3. IF the initial pressure and temperature are 1.40x10^5 Pa and 350K, respectively, find the change in internal energy of the gas if the final temperature of the gas is 152K. 2. A fridge does 17.5 KJ of work while moving 120KJ of thermal energy from inside the fridge. Calculate the fridge's coefficient of performance.

An ideal monatomic gas expands isothermally from 0.600 m3 to 1.25 m3 at a constant temperature...

An ideal monatomic gas expands isothermally from 0.600 m3 to 1.25 m3 at a constant temperature of 730 K. If the initial pressure is 1.02 ? 105 Pa find the following. (a) the work done on the gas J (b) the thermal energy transfer Q J (c) the change in the internal energy J

1. One mole of an ideal monatomic gas is confined to a rigid container. When heat...

1. One mole of an ideal monatomic gas is confined to a rigid container. When heat is added reversibly to the gas, its temperature changes from 300 K to 350K. (a) How much heat is added? (b) What is the change in entropy of the gas?

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?

3. An ideal monatomic gas expands isothermally from .500 m3 to 1.25 m3 at a constant...

3. An ideal monatomic gas expands isothermally from .500 m3 to 1.25 m3 at a constant temperature of 675 K. If the initial pressure is 1.00 ∙ 105 Pa, find (a) the work done by the gas, (b) the thermal energy transfer Q, and (c) the change in the internal energy.

One mole of an ideal gas initially at temperature T0 reversibly expands from volume V0 to...

One mole of an ideal gas initially at temperature T0 reversibly expands from volume V0 to 2V0, (a) at constant temperature (b) at constant pressure. Calculate the work, the heat, and change in internal energy of the gas in each process.