In the thermal decomposition of potassium chlorate given as `2KClO_(3)(s) to 2KCl(s)+3O_(2)(g)`, law of mass action

Calculate the percent loss in weight after complete decomposition of a pure sample of potassium chlorate KClO_(3)(s) to KCl + O_(2)(g)

Thermal decomposition of K_2Cr_2O_7 produces:

Calculate the percentage composition of each element in Potassium chlorate, KClO_3 .

18.625g KCl is formed due to decomposition of KClO_(4) in reaction KClO_(4)(s)rarr KCl(s)+2O_(2)(g) Find volume of O_(2) obtained at STP [Atomic mass K = 39 Cl = 35.5]

18.625g KCl is formed due to decomposition of KClO_(4) in reaction KClO_(4)(s)rarr KCl(s)+2O_(2)(g) Find volume of O_(2) obtained at STP[Atomic mass K = 39 Cl = 35.5]

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

How many grams of potassium chlorate should be decomposed to liberate 9.6 g of oxygen? Equation: 2KClO_(3) to 2KCl + 3O_(2) Relative atomic mass: K = 39, Cl = 35.5, O = 16

A metal carbonate decomposes according to the following reaction M_(2)CO_(3) (s) to M_(2)O (s) + CO_(2) (g) Percentage loss in mass on complete decomposition of M_(2)CO_(3) (s) (Atomic mass of M= 102 )

Compute the mass of potassium chlorate (KClO_(3)) that should decompose to produce 8 g of oxygen as per the chemical equation , 2KClO_(3) to 2KCl + 3O_(2)(g) (R.A.M : K = 39, Cl = 35.5,O = 16 .)

Equal masses of KClO_(3) undergoes different reaction in two different container: (i) 2KClO_(3) to 2KCl + 3O_(2) (ii) 4KClO_(3)to KCl + 3KClO_(4) Mass ratio of the KCl produced in respective reaction is x : 1. Value of 'x' will be