Internal Energy of a Monatomic Ideal Gas at Constant Pressure andVariable Temperature

A helium-filled balloon at 1.00 atm pressure has a volume of 1.280L. It is placed in a freezer and its volume decreases, stopping at0.970 L.
(Assume that the static internal and external pressures are equal,that the balloon contains only helium, and helium behaves as anideal gas.)
Calculate E for the gas in the balloon

A balloon filled with 39.1 moles of helium gas has a volume of 876 L at 0.0°C and 1.00 atm pressure. At constant pressure, the temperature of the balloon is increased to 38.0°C causing the balloon to expand. Calculate q, w, ∆E for the helium in the balloon. The specific heat of helium gas is 5.20 J/(g °C) and 101.3 J = 1 Latm.

A large balloon contains 65.0L of helium gas at 25 °C and a pressure of 745 mmHg. The balloon ascends to 3000m, at which the external pressure has decreased by 30%. What would be the volume of the balloon, assuming it expands so that the internal and external pressures are equal? (Assume the temperature is still 25°C.)