Learning Science

Adiabatic Reversible Expansion of Real Gas.

Calculation of ∆H

Calculation of q (Heat)

Thermodynamic equation of state

Isothermal Reversible Expansion of a Real Gas (Calculation of ∆E)

Isothermal Reversible Expansion of a Real Gas | Calculation of w.

Comparison of Isothermal and Adiabatic Expansion of an ideal gas.

An ideal gas is expanded reversibly and adiabatically from volume of 1.43 L to 2.86 L. Find ?

Question based on adiabatic compression?

Calculate the final temperature and pressure for adiabatic reversible expansion.

Calculate the final temperature, ∆E, ∆H and w (Example)

Calculate the final temperature of the gas and the amount of work done by the gas.

Four moles of a gas at STP are compressed adiabatically to a volume of 8.96 litres. Find Pressure?

Formulae Tips based on adiabatic expansion of an ideal gas.

Expression for work done when pressure and volume are given.

Expression for work done in terms of pressure.

Expression for work in terms of volume

Expression for the work in an adiabatic reversible expansion of an ideal gas.

Relation between pressure and volume.

Relationship between temperature and pressure.

Relationship between temperature and volume.

Adiabatic Reversible Expansion of an ideal gas.

2 moles of an ideal gas at STP are compressed isothermally and reversibly to 10 litres.

Calculate ∆E, q and w for an isothermal reversible expansion of 2 moles of an ideal gas.

One mole of an ideal gas expands isothermally and reversibly from 1 litre to 100 litres at 27°C.

One mole of benzene is converted reversibly into vapour. Calculate q, w, ∆E and ∆H.

Calculate the minimum work which must be done to compress 16 grams of oxygen.

Calculate the maximum work obtainable by isothermal expansion.

Calculate q, w, ∆E and ∆H.

Formulae Tips (Based on isothermal expansion of an ideal gas).