1 mole of an ideal gas at constant atmospheric pressure is heated to increase its volume by `50%` of initial volume. The change in temperature made was 300 K to T K. Then calculate final temperature.

4 moles of an ideal gas is at 0^(@) C . At constant pressure it is heated to double its volume, then its final temperature will be

If the temperature of a gas is increased by 1K at constant pressure its volume increase by 0.0035 of the initial volume. The temperature of the gas is

At constant temperature if the pressure of an ideal gas is increased by 10% then its volume must decrease by

Two moles of an ideal monoatomic gas occupy a volume 2V at temperature 300K, it expands to a volume 4V adiabatically, then the final temperature of gas is

By increasing temperature of a gas by 6^@ C its pressure increases by 0.4%, at constant volume. Then initial temperature of gas is

One mole of an ideal monoatomic gas requires 200 J heat to increase its temperature by 10 K, when heated at constant pressure. The same gas is then heated at constant volume to increase its temperature by 10 K. What is the heat required ?

At constant temperature on increasing the pressure of a gas by 5% will decrease its volume by -

Two moles of a certain ideal gas at 300K is cooled at constant volume so that the pressure is reduced to half the original value. Now the gas is heated at constant pressure so that its temperature becomes equal to the initial temperature. Find the total amount of heat absorbed by the gas in the process.