The work done by an ideal gas at constant pressure is 10 J. The amount of heat gained in this process is

The work done by an ideal gas at constant temperature is 10 J. the amount of heat gained in this process is

70 cal of heat is required to raise the temperature of 20 moles of an ideal diatomic gas at constant pressure from 30^@C . The amount of heat required (in cal) to raise the temperature of the same gas through the same range ( 30^@C to 35^@C ) at constant volume is

The molar specific heat of an ideal gas at constant pressure is C_(p) = 5/2 R . Some amount of this gas in a closed container has a volume 0.0083 m^(3) , a temperature 300 K and a pressure 1.6 xx 10^(6) N cdot m^(-2) . If 2.49 xx 10^(4) J 1 of heat is supplied at a constant volume of the gas, find out the final temperature and pressure. Given, R = 8.3 J cdot mol^(-1) cdot K^(-1) .

The amount of heat released by a system at constant pressure is 20 kJ. What will be the value of DeltaH in this process?

70 cals of heat is required to raise the temperature of 2 moles of an ideal gas at constant pressure from 30^@C to 35^@C . Calculate the amount of heat required to raise the temperature of same gas through same range at constant volume. (R = 2 cal / mole ^@C )

The rms velocity of an ideal gas at constant pressure varies with density (d) as ?

A monatomic ideal gas is heated at constant pressure. How much fraction of heat is used to increase internal energy?

Pressure-volume (PV) work done by an ideal gaseous system at constant volume is (where E is internal energy of the system)

The volume of 1 mol of an ideal gas with the adiabatic exponent gamma is changed according to the relation V = b/T where b = constant. The amount of heat absorbed by the gas in the process if the temperature is increased by Delta T will be

Calculate the change in internal energy of the gas when it expands from 2L to 8L at a constant pressure of 2 atm absorbing 400 J of heat in the process. (1L *atm=101.35J ).