In a reaction `N_(2(g))+3H_(2(g))to2NH_(3(g))` rate of appearance of `NH_(3)` is `2.5xx10^(-4)molL^(-1)sec^(-1)` then rate of reaction and rate of disappearance of `H_(2)` respectively is :-

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

In a catalytic reaction involving the formation of ammonia by Haber's process N_(2)+3H_(2)rarr 2NH_(3) the rate of appearance of NH_(3) was measured as 2.5xx10^(-4) mol L^(-1)s^(-1) The rate of disappearance of H_(2) will be

In a catalytic reaction involving the formation of ammonia by haber process N_(2)+3H_(2)rarr2NH_(3) the rate of appearance of NH_(3) was measured as 2.5 xx10^(-4) mol L^(-1) S^(-1) the rate of disappearance or H_(2) will be

In the reaction : N_(2)+3H_(2)rarr2HN_(3) the rate of formation of NH_(3) " is " 9.6xx10^(-3)"mol.L"^(-1).s^(-1). Calculate the rates of disappearance of N_(2) and H_(2) .

For the reaction : N_(2)(g)+3H_(2)(g)rarr2NH_(3)(g) . If rate of appearance of NH_(3) is 6.8xx10^(-3) gm/min, then rate of disappearance of H_(2)(g) at the same condition will be :

For the reaction H_(2) (g)+I_(2)(g) rarr 2HI(g) , the rate of disappearance of H_(2) is 1.0 xx 10^(-4) mol L^(-1) s^(-1) . The rate of appearance of HI will be

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

In the hober's process of ammonia manufacture, N_(2)(g)+3H_(2)(g) rarr2NH_(3)(g) the rate of appearance of NH_(3) is : (d[NH_(3)])/(dt)=2xx10^(-4)"mol" L^(-1)"sec"^(-1) The rates of the reaction expressed in terms of N_(2) and H_(2) will be :

In the hober's process of ammonia manufacture, N_(2)(g)+3H_(2)(g) rarr2NH_(3)(g) the rate of appearance of NH_(3) is : (d[NH_(3)])/(dt)=2xx10^(-4)"mol" L^(-1)"sec"^(-1) The rates of the reaction expressed in terms of N_(2) and H_(2) will be :