The temperature of a room of volume Vrise from `T_(1)` to `T_(2)`. How much will the mass of the air in the room changes if the atmospheric pressure is `p_(0)`. The molecular weight of the air is M.

Assume that the temperature remains essentially constant in the upper parts of the atmosphere. The atmospheric pressure varies with height as. (the mean molecular weight of air is M, where P_(0)= atmospheric pressure at ground reference)

The temperature of an open room of volume 30 m^(3) increases from 17^(@)C to 27^(@)C due to sunshine. The atmospheric pressure in the room remains 1 xx 10^(5) Pa . If n_(i) and n_(f) are the number of molecules in the room before and after heating then n_(f) and n_(i) will be

A cylindrical tube of uniform cross-sectional area A is fitted with two air tight frictionless pistons. The pistons are connected to each other by a metallic wire. Initially the pressure of the gas is P_0 and temperature is T_0 , atmospheric pressure is also P_0 . Now the temperature of the gas is increased to 2T_0 , the tension in the wire will be

Find the internal energy of air in a room of volume 40m^(3) at 1 standard atmospheric pressure.

Air is filled inside a jar which has a pressure gauge connected to it. The temperature of the air inside the jar is same as outside temperature (= T_(0)) but pressure (P_(1)) is slightly larger than the atmospheric pressure (P_(0)) . The stopcock is quickly opened and quickly closed, so that the pressure inside the jar becomes equal to the atmospheric pressure P_(0) . The jar is now allowed to slowly warm up to its original temperature T_(0) . At this time the pressure of the air inside is P_(2) (P_(0) lt P_(2) lt P_(1)) . Assume air to be an ideal gas. Calculate the ratio of specific heats (= gamma) for the air, in terms of P_(0), P_(1) and P_(2) .

Two mole of Hydrogen and three mole of Helium are mixed at room temperature and at atmospheric pressure P_a and the mixture occupies a volume V.

Call the (rms) speed of the molecules in an ideal gas V_(0) at temperature T_(0) and pressure p_(0) . Find the speed if (a) the temperature id raised from T_0 = 293 K "to" 573 K (b) the pressure is doubled and T = T_0 ( c) the molecular weight of each of the gas molecules is tripled.

A soft plastic ball filled with air at atmospheric pressure weighs W_1 . If weight becomes W_2 when air is removed from it. Then

At room temperature the ratio of velocity of sound in air at 10 atmospheric pressure to the at 1 atmospheric pressure will be