In a reversible reaction `K_(c) gt K_(p) and Delta ` H = + 40 K. Cal. The product will be obtained in less amount on

Write the relation between K_(p) and K_(c)

For the gas phase reaction C_(2) H_(4) + H_(2) hArr C_(2) H_(6) (Delta H = - 32.7 K.cal ) carried out in a closed vessel, the equilibrium moles of C_(2)H_(4) can be increased by

N_(2) + 3H_(2) rarr 2NH_(3), Delta H = - 46K . Cals. From the above reaction, heat of formation of ammonia is

For the reversible reaction N_(2 (g)) + 3 H_(2 (g)) hArr 2 NH_(3 (g)) at 500^(@) C . The value of K_(p) is 1.44 xx 10^(-5) , when partial pressure is measured in atmosphers . The corresponding value of K_(c) with concentration in mol L^(-1) is

MgSO_(4(s)) + H_(2)O rarr MgSO_(4(aq)), Delta H = - 84K . Cals, Delta H of the reaction is known as

For a given reaction K_p lt K_c . Increase of pressure favours

Energy of C, C pi bond in k.cal is

In a reaction vessel, the reactants have attained a potential energy of 80K. cal/mole and unable to give even traces of products. The threshold energy of the reaction may be

A certain endothermic reaction: Ato Product, DeltaH=+ve proceeds ina sequence of three elementary steps with the rate constant K_(1),K_(2) and K_(3) and each one having energy of activation E_(1),E_(2) and E_(3) respectively at 25^(@)C . The observed rate constannt for the reaction is equal to K_(3)sqrt((K_(1))/(K_(2))) . A_(1),A_(2) and A_(3) are Arrhenius parameters respectively. For a reversible Aunderset(K_(2))overset(K_(1))(hArr)B,DeltaH=q if pre exponential factors are same. The correct relation is