A gas.initially at `0^@C` is heated so that its pressure and.volume are both doubled. What will be its final temperature?

The temperature of an ideal gas is 340 K. the gas is heated to a temperature at constant pressure. As a result, its volume increases by 18%. What is the final temperature of the gas?

A 1000 mL sample of a gas at -73^@C and 2 atmosphere is heated to 123^@C and the pressure is reduced 0.5 atm. What will be the final volume ?

Temperature of an ideal gas is 340 K. At constant pressure the gas is so heated volume increases by 18% . What is the final temperature of the gas ?

Some amount of gas is compressed at STP in an (ii) isothermal process in such a way that the final volume of the gas becomes 1/5 times the initial volume. What will be the final temperature and pressure of the gas in the case? (gamma = 1.4 for the gas)

At constant pressure the volume of a definite mass of gas changes with its temperature

1L of helium gas at 27^@C and at a pressure twice the atmospheric pressure is so heated that both the volume and the pressure of the gas are doubled.Find the final temperature of gas.

The volume of a gas at 1 standard atmosphere is compressed to 1/6th of its value at constant temperature.What will be its final pressure.

An ideal gas is heated from 27^@C to 627^@C at constant pressure. If initial volume was 3m^3 , then what will be the final volume ( in m^3 ) of gas?

If certain amount of gas is compressed suddenly and the pressure is increased by 8 times of its initial pressure, and gamma = 1.5 then what will be the change in temperature?

Volume of a gas is doubled by raising its temperature at constant pressure . Initial temperature of the gas was 13^@C . Find the final temperature.