For a reaction : `2NH_(3)(g)overset("pt")rarrN_(2)(g)+3H_(2)(g),rate = K `
Write the unit of K.

For a reaction : 2NH_(3)(g)overset("pt")rarrN_(2)(g)+3H_(2)(g),rate = K Write the order and molecularity of this reaction.

At constant temperature & high pressure, the given reaction is of the zero order : 2NH_(3)(g)overset(pt)rarrN_(2)(g)+3H_(2)(g) . If the rate constant of this reaction is 3xx10^(-4)"mol.L"^(-1).s^(-1) , calculate the rate of formation of N_(2)and H_(2) .

For a reaction: H_(2)+Cl_(2)overset("hv")rarr2HCl, " rate"=K Write the order and molecularity of this reaction.

For the reaction 2NH_3 (g) overset(rarr) (larr) N_2 (g) + 3H_2 (g) the unit of the K_p will be

For the reaction, 2NH_(3)(g) to N_(2)(g)+3H_(2)(g) -

For a reaction: H_(2)+Cl_(2)overset("hv")rarr2HCl, " rate"=K Write the unit of K.

For the reaction, 2NH_3(g) iff N_2(g) + 3H_2(g) the units of K_p will be

For the reaction 4NH_(3)(g)+5O_(2)(g)rarr4NO(g)+6H_(2)O(g) write the instantaneous reaction -rate in terms of decrease in concentration of the reactants and increase in the concentration of the products.

For the reaction : 2NO_(2)(g)+F_(2)(g)rarr2NO_(2)F(g) the rate law is , rate =k[NO_(2)][F_(2)] . Write the differential rate equation for the reaction.

For the reaction N_2 (g) + O_2 (g) overset(rightarrow)(leftarrow) 2NO (g) the equilibrium constant is K_1 . The equilibrium constant is K_2 for the reaction , 2NO(g) + O_2 (g) overset(rightarrow)(leftarrow) 2NO_2 (g). What is K for the reaction, NO_2 (g) overset(rightarrow)(leftarrow) 1/2N_2(g)+ O_2 (g) -