Gaseous hydrogen initially at STP in a container of volume `5xx10^(-5)m^3` is cooled by 55 K.Find the change in internal energy and amount of heat lost by the gas.

Gaseous hydrogen initially contained under standard conditions in a sealed vessel of volume 5xx10^(-3)m^(-3) was cooled by 55K . Find the change in internal energy and amount of heat lost by the gas.

Gaseous hydrogen contained initially under standard conditions in sealed vessel of volume V = 5 L was cooled by Delta T = 55 K . Find how much the internal energy of the gas will change and what amount of heat will be lost by the gas.

One mole of an ideal gas whose pressure changes with volume as P=alphaV , where alpha is a constant, is expanded so that its volume increase eta times. Find the change in internal energy and heat capacity of the gas.

Gaseous hydrogen contained initially under standard conditions in a sealed vessel of volume V = 5.01 L was cooled by DeltaT=50 K . Find how much the internal energy of the gas will change and what amount of heat will be lost by the gas.

3000 J of heat is given to a gas at a constant pressure of 2xx10^(5)N//m^(2) .If its volume increase bny 10 litres during the process find the change in the intrnal energy of the gas.

When 100J of heat is given to an ideal gas it expands from 200cm^(3) to 400cm^(3) at a constant pressure of 3 xx 10^(5) Pa . Calculate (a) the change in internal energy of the gas (b) the number of moles in the gas if the initial temperature is 400K , (c ) the molar heat capacity C_(p) at constant pressure and (d) the molar heat capacity C_(v) at constant volume. [R = (25)/(3)J//mol-K]

The temperature of 5 mol of gas which was held at constant volume was change from 100^(@)C to 120^(@)C . The change in internal energy was found to ve 80 J . The total heat capacity of the gas at constant volume will be equal to

A gas under constant pressure of 4.5 xx 10^(5) Pa when subjected to 800 kJ of heat, changes the volume from 0.5 m^(3) to 2.0 m^(3) . The change in internal energy of the gas is