A cylinder containing one gram molecule ...

A cylinder containing one gram molecule of the gas compressed adiabatic ally until its temperature from `27^@C` to 97^@C`. Calculate the work done and heat produced in the gas. (y = 1.5)`

Similar Questions

Explore conceptually related problems

1mm^3 of a gas is compressed at 1 atmospheric pressure and temperature 27^@C to 627^@C . What is the final pressure under adiabatic condition (gamma for the gas =1.5 )

A system absorbs 10 kJ of heat at constant pressure and its temperature rises from 27^@C to 37^@C in vacuum. The DeltaU of reaction is

5.6 liter of helium gas at STP is adiabatically compressed to 0.7 liter. Taking the initial temperature to be T_1, the work done in the process is

If 5 moles of oxygen at STP is adiabatically compressed so that temperature increases to 400^@C , then find the work done on the gas. R=8.3J/mole−K

For one mole of an ideal gas, increasing the temperature from 0^(@)C to 20^(@)C , "__________________" .

A cylinder contains one gram mole of H_2 at 17^@C and 2 atms. The initial volume of the gas is 2xx10(-3)m^3 . Find the work done if its volume changes by 15 percent.

One mole of a gas at pressure 2 Pa and temperature 27 °C is heated till both pressure and volume are tripled. What is the temperature of the gas?

Three moles of an ideal gas are compressed isothermally and reversibly to a volume of 2L. The work done is 2.983 kj at 22^@C . Calculate the initial volume of the gas

Three moles of an ideal gas are compressed isothermally and reversibly to a volume of 2 L. The work done is 2.983 kj at 22^@C . Calculate the initial volume of the gas.

If the volume of the given mass of a gas is increased four times, the temperature is raised from 27^(@)C to 127^(@)C . The elasticity will become

A cylinder containing one gram molecule of the gas compressed adiabatic ally until its temperature from `27^@C` to 97^@C`. Calculate the work done and heat produced in the gas. (y = 1.5)`

Similar Questions

Recommended Questions