Show that the internal energy of the air (treated as an ideal gas) contained in a room remains constant as the temperature changes between day and gight. Assume that the atmospheric pressure around remains constant and the air in the room maintains this prssure by communicating with the surrounding thourgh the widows, doors, etc.

Show that the internal energy of the air (treated as an ideal gas) contained in a room remains constant as the temperature changes between day and night. Assume that the atmospheric pressure around remains constant and the air in the room maintains this pressure by communicating with the surrounding through the windows, doors, etc.

Show that the internal energy of the air (treated as an ideal gas) contained in a room remains constant as the temperature changes between day and night. Assume that the atmospheric pressure around remains constant and the air in the room maintains this pressure by communicating with the surrounding through the windows, doors, etc.

Show that the internal energy of the air (treated as an ideal gas) contained in a room remains constant as the temperature changes between day and night. Assume that the atmospheric pressure around remains constant and the air in the room maintains this pressure by communicating with the surrounding through the windows, doors, etc.

A sample contains N moles of a diatomic gas at temperature T. Molecules of gas get dissociated into atoms temperature remaining constant, find change in internal energy of gas

A sample contains N moles of a diatomic gas at temperature T. Molecules of gas get dissociated into atoms temperature remaining constant, find change in internal energy of gas

The density of air at one atmospheric pressure is 0.9kgm^(-3) What will be its density at 4 atmospheric pressure,when temperature remains constant?

The density of air at one atmospheric pressure is 0.9kgm^(-3) What will be its density at "4" atmospheric pressure,when temperature remains constant?

A glass vessel contains air at 60^(@)C . To what temperature must it be heated to expel one third of the air, the pressure remaining constant. (Neglect the expansion of the vessel)

An insulated system contains 4 moles of an ideals diatomic gas at temperature T when a gas is dissociated in to atoms and the temperature remained constant then the relaton between Q and T is R = universal gas constant