For the reaction `A (g) to B(g) +C(g),` write the intergrated rate equation in terms of total pressure 'P' and the partial pressures `P_(A) P_(B) P_(C).`

Derive an integrated rate equation in terms of total pressure (P) and the partial pressures P _(A), P_(B), P_(C) for the gaseous reaction A (g) to B(g) +C(g).

For the reaction CO_((g))+CI_(2(g)) harr COCI_(2(g)) . The K_p // K_c is equal to

A two litre flask contains a mixture of 16g of oxygen, 7g of nitrogen and 2g of hydrogen at 20^@C . Report the total pressure and partial pressures.

For the reaction equilibrium 2NOBr_((g)) hArr 2NO2_((g)) + Bz_(2(g)) . If PBr_(2) = (p)/(9) at equilibrium and P is total pressure, the ratio (K_(p))/(p) is equal to

For the reaction CO_((g)) + Cl_(2(g)) hArr COCl_(2(g)). The K_(p)//K_(c) is equal to

Give two examples for each of zero order and first order reactions. Write the equations for the rate of reaction in terms of concentration changes of reactants and products for the following ractions. 1) A(g) +B(g) to C(g) +D(g) 2) A(g) to B(g)+C(g) 3) A(g) +B(g)to C(g)

For 2A(g) B(g) +3C(g) , Pressure of A at t = 0 is 500 mm, then total pressure of A, B & C at t = 10 min is( in mm)

For a first order homogeneous gaseous reaction Ato2B+C , if the total pressure after time t was P_(t) and after a long time (to to oo) was P_(oo) then k in terms of P_(t),P_(oo) and t is

Write the formula of n^(th) term of G.P. and explain the terms in it.