On heating `KClO_(3)`, we get

On heating KCIO_(3) we get :

Upon heating KClO_(3) in presence of catalytic amount of MnO_(2) , a gas W is formed. Excess amount of W reacts with white phosphorus to given X . The reaction of X with pure HNO_(3) gives Y and Z . Y and Z are, respectively

O_(2) is evolved by heating KClO_(3) using MnO_(2) as a catalyst 2KClO_(3) overset(MnO_(2))to 2KCl+3O_(2) Calculate the number of moles of oxygen produced in the above reaction if 56g of KClO_(3) is used.

O_(2) is evolved by heating KClO_(3) using MnO_(2) as a catalyst 2KClO_(3) overset(MnO_(2))to 2KCl+3O_(2) Calculate the mass of KClO_(3) required to produce 6.72 litre of O_(2) at S.T.P. [atomic masses of K = 39, Cl = 35.5, O = 16).

In the preparation of HNO_(3) , we get NO gas by catalytic oxidation of ammonia . The moles of No produced by the oxidation of two moles of NH_(3) will be ……… .

In the preparation of HNO_(3) , we get NO gas by catalytic oxidation of ammonia . The moles of No produced by the oxidation of two moles of NH_(3) will be ……… .

Calculate n factor of KClO_(3) in the following reaction : 4KClO_(3) overset(Delta)rarr 3KClO_(4)+KCl

Balance the following equation : KClO_(3) to KCl + O_(2)

Consider the following reaction: KClO_(3)(s)overset(Delta)toKCl(s)+O_(2)(g) , yield =60% Zn(s)+H_(2)SO_(4)(aq)toZnSO_(4)(aq)+H_(2)(g) , yield =50% 2H_(2)(g)+O_(2)(g)to2H_(2)O(l) , yield =50% What volume of 0.2 M H_(2)SO_(4) solution is required to produce enough H_(2) to completely react with O_(2) liberated due decomposition of 1.225 g KClO_(3) . (Molecular weight of KClO_(3)=39+53.5+3xx16 =122.5g mol^(-1) )

By mixing ammonium chloride to potassium nitrite and heating, we get