Find the pressure of 5 mole `Cl_(2)` gas filled in a 2 littre vassel at `27^(@)C` temperature.

At 27^(@)C temperature and 4 bar pressure CO is filled in 2 litrre vessel. Find the pressure if it is filled in 4 litre vessel at 77^(@)C temperature.

Find the mass of 2.5 mole of oxygen atoms.

Find the mass of 2.5 mole of oxygen atom .

Find the temperature at which the K.E of gas molecules is double its value at 27^(@)C ?

Calculate the pressure exerted by 5 moles of CO_2 in one litre vessel at 47^@ C using Vanderwaal's equation. Also report the pressure of gas if it behaves ideally in nature. Given that a=3.592 atm lit^2 mol^(-2) . b = 0.0427 lit mol^(-1)

Find the moles of O_(2) gas having presure 250 bar in 500 ml vessle at 350 K temperature.

The decomposition of Cl_(2)O_(7) at 400K in the gas phase to Cl_(2) and O_(2) is a first order reaction. (i) After 55 seconds at 400K, the pressure of Cl_(2)O_(7) falls from 0.062 to 0.044 atm. Calculate the rate constant. (ii) Calculate the pressure of Cl_(2)O_(7) after 100 seconds of decomposition at this temperature.

Fig shows a cylindrical tube of volume V with adiabatic walls containing an ideal gas. The internal energy of this ideal gas is given by 1.5nRT. The tube is divided into two equal parts by a fixed diathermic wall. Initially, the pressure and the temperature are p_(1), T_(1) on the left and p_(2), T_(2) on the right. the system is left for sufficient time so that the temperature becomes equal on the two sides. (a) how much work has been done by the gas on the left part ? (b) find the final pressures on the two sides. (c ) find the final equilibrium temperature. (d) how much heat has flown from the gas on the right to the gas on the left ?