A vessel (A) contains I mole each of `N_(2) & O_(2)` and another vesser (B) contains 2 mole each of `N_(2) & O_(2)` . 3oth vessels are heated to same temperature till equilibrium is established in-both cases. Then, correct statement is

A mixture of 2 moles of N_(2) and 8 moles of H_(2) are heated in a 2 lit vessel, till equilibrium is established. At equilibrium, 04 moles of N_(2) was present. The equilibrium concentration of H_(2) will be

At 127°C and latm pressure, a mixture of a gas contains 0.3 mole of N_(2) , 0.2 mole of O_(2) The volume of the mixture is

Two rigid adiabatic vessels A and B which initially, contain two gases at different temperature are connected by pipe line with value of negligible volume. The vessel 'A' contain 2 moles Ne gas (C_(p.m) = (5)/(2)R) at 300K, vessel 'B' contain 3 moles of SO_(2) gas (C_(p.m) = 4R) at 400K. The volume of A & B vessel is 4 and 6 litre respectively. The final total pressure (in atm) when value is opened and 12 Kcal heat supplied through it to vessels. [Use: R= 2 cal/mol, K and R= 0.08L. atm/mol K as per desire]

For the reaction, N_(2) + 3H_(2) hArr 2NH_(3) in a vessel, equal moles of N_(2) and H_(2) are mixed to attain equilibrium.

N_(2)O_(4) hArr 2NO_(2). At 300K N_(2)O_(4) at 6 atmosphere is heated to 600K where equilibrium is established with a total pressure of 16 atmospheres. What is K_(p) at 600K ?