An ideal gas has a molar heat capacity at constant pressure of `Cp = 2.5 R`. The gas is kept in a closed vessel of volume `0.0083 m^(3)`, at a temperature of `300 K` and a pressure of 1.6 xx 10^(6) Nm^(-2). An amount 2.49 xx 10^(4) J of heat energy is supplied to the gas. calculate the final temperature and pressure of the gas.

An ideal gas has a molar heat capacity at constant pressure of Cp = 2.5 R . The gas is kept in a closed vessel of volume 0.0083 m^(3) , at a temperature of 300 K and a pressure of 1.6 x 10^(6) Nm^(-2). An amount 2.49 x 10^(4) J of heat energy is supplied to the gas. calculate the final temperature and pressure of the gas.

An ideal gas has a specific heat at constant pressure C_P=(5R)/2 . The gas is kept in a closed vessel of volume 0.0083m^3 , at a temperature of 300K and a pressure of 1.6xx10^6 N//m^2 . An amount of 2.49xx10^4 Joules of heat energy is supplied to the gas. Calculate the final temperature and pressure of the gas.

An ideal gas has a specific heat at constant pressure C_P=(5R)/2 . The gas is kept in a closed vessel of volume 0.0083m^3 , at a temperature of 300K and a pressure of 1.6xx10^6 N//m^2 . An amount of 2.49xx10^4 Joules of heat energy is supplied to the gas. Calculate the final temperature and pressure of the gas.

An ideal gas has a specific heat at constant pressure C_P=(5R)/2 . The gas is kept in a closed vessel of volume 0.0083m^3 , at a temperature of 300K and a pressure of 1.6xx10^6 N//m^2 . An amount of 2.49xx10^4 Joules of heat energy is supplied to the gas. Calculate the final temperature and pressure of the gas.

An ideal gas has a specific heat at constant pressure C_(p)=5/2R . The gas is kept in a closed vessel of volume 0.0083m^(3) , at temperature of 300 K and pressure 1.6xx10^(6)N//M^(2) . An amount of 2.49xx10^(4) J of energy is supplied to the gas. calculate the final temperature and pressure of the gas.

An ideal gas has specific heat at constant volume C_v = (3/2)R. The gas is kept in closed vessel of volume 0.0080 m^3 at a temperature of 300 K and pressure 1.6xx10^6 N/ m^2 . If 2.8xx10^4 J of heat is supplied to the gas, then the final temperature of the gas will be

An ideal gas has specific heat at constant volume C_v = (3/2)R. The gas is kept in closed vessel of volume 0.0090 m^3 at a temperature of 300 K and pressure 1.8xx10^6 N/ m^2 . If 2.8xx10^4 J of heat is supplied to the gas, then the final temperature of the gas will be

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) .