Yield of Ammonia will be more in Haber's process under _____ conditions (L = Low, H = high T = Temp, p = Pressure )

Assertion (A): At 273K and 0.5 atms pressure, 1L of H_2 and 1L of CO_2 contain same number of molecules. Reason (R): Equal volumes of all gases contain equal number of molecules under the same conditions of temperature and pressure.

A gaseous mixture of propane and butane of volume 3 litre on complete combustion produces 11 lit CO_(2) under standard condition of temp. and pressure. Find the ratio of volume of butane to propane.

Dihydrogen gas used in Haber's process is produced by reacting methane from natural gas with high temperature steam. The first stage of two stage reaction involves the formation of CO and H_(2) . In second stage , CO formed in first stage is reacted with more steam in water gas shift reaction. CO(g)+H_(2)OhArrCO_(2)(g)+H_(2)(g) If a reaction vessel at 400^(@)C is charged with an equimolar mixtureof CO and steam such that p_(CO)=p_(H_(2)P=4.0 bar, what will be the partial pressure of H_(2) at equilibrium ? K_(p)=10.1 at 400^(@)C

One litre of a mxiture of CO and CO_(2) is passed over red hot coke when the volume increased to 1.6 L under the same conditions of temperature and pressure . The volume of CO in the original mixture is

Draw the P-T and V-T diagrams for an isobaric process of expansion, corresponding to n moles of an ideal gas at a pressure P_(0) , from V_(0) to 2V_(0) .

According to Avogadro law the correct statements are a) Volume of gas is proportional to the no. of moles at constant T and P b) The pressure of a gas is directly proportional to temp. of the gas under all conditions c) Equal volumes of different gases under similar conditions consist of equal no. of molecules d) Equal volumes of different gases under same conditions have equal no. of atoms

One mole of an ideal monoatomic gas at temperature T and volume 1L expands to 2L against a constant external pressure of one atm under adiabatic conditions, then final temperature of gas will be:

The rate of effusion of two gases 'a' and 'b' under identical conditions of temperature and pressure are in the ratio of 2:1. What is the ratio of rms velocity of their molecules if T_a and T_b are in the ratio of 2:1