Molecular weights of ammonia and nitrogen are respectively `X_(1) and X_(2)`. In the reaction of producing ammonia.`N_(2)+3H_(2)to2NH_(3)` , the equivalent weights of ammonia and nitrogen are given as respectively `y_(1) and y_(2)`. Then how is `(y_(1)-y_(2))` related to molecular weights?

The rate of reaction for N_(2)+3H_(2)to2NH_(3) may be represented as

For N_(2)+3H_(2)to2NH_(3) rates of disappearance of N_(2) and H_(2) and rate of appearance of NH_(3) respectively, are a,b and c then

In a reaction N_(2)+3H_(2)to2NH_(3) , the rate of appearance of ammonia is 2.5xx10^(-4)" M sec"^(-1) the rate of disappearance of N_(2) will be

For the following reaction N_(2)+3H_(2)to2NH_(3) equivalent mass of N_(2)=("molar mass of" N_(2))/X What is the value of x.

For the reaction, N_(2) + 3H_2 rarr 2NH_(3) if E_1and E_2 equivalent masses of NH_3 and N_2 respectively then E_1 -E_2 is

For the reaction N_(2)+3H_(2)to2NH_(3) , the rate of disappearance of H_(2) is "0.01 mol lit"^(-1)"min"^(-1) . The rate of appearance of NH_(3) would be

N_(2) + 3H_(2) to 2NH_(3) . The rate of disappearance of nitrogen is 0.02 mol L^(-1)s^(-1) . What is the rate of apperance of ammonia ?

The equivalent weights of oxidising and reducing agents can be calculated by the number of electrons gained or lost. The equivalent weight of an oxidising agent is the number of parts by weight of the substance which gains one electron. Thus, it is equal to the molecular weight of the substance divided by the number of electrons gained in the balanced chemical equation. Similarly, equivalent weight of a reducing agent is equal to the molecular weight divided by the number of electrons lost as represented in the balanced chemical equation The equivalent weght of As_(2),S_3 in the following reaction As_(2)S_(3) + H^(+) + NO_(3)^(-) rarr NO + H_(2)O + AsO_(4)^(3-) + SO_(4)^(2-) is related to its molecular weight as