A given initial mass of `KClO_(3)` on 50% decompostion produces 67.2 litre oxygen gas at `0^(@)C` and 1 atm. The other product of
decomposition is KCl. The initial mass of `KClO_(3)` (in gm) taken is:

A certain mass of gas occupies 2 litres at 27^@C and 100 Pa. Find the temperature when volume and pressure become half of their initial values .

90 gm mixture of H_(2) and O_(2) is taken In stoichiometric ratio and gives H_(2)O with 50% yield. The produced mass of H_(2)O (in gm) is :

i. The initial pressure of PCl_(5) present in one litre vessel at 200 K is 2 atm. At equilibrium the pressure increases to 3 atm with temperature increasing to 250 . The percentage dissociation of PCl_(5) at equilibrium is

When 2.0 gm of organic compound is burnt completely , 150 ml N_(2) gas at 27^(@) C and 0.821 atm is obtained. The mass percent of nitrogen in the compound is

0.30 g of gas was found to occupy a volume of 82.0 mL at 27^(@)C and 3 atm. Pressure. The molecular mass of the gas is

What volume of oxygen gas (O_(2)) measured at 0^(@)C and 1 atm is needed to burn completely 1 L of propane gas (C_(3)H_(8)) measured under the same condition?

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

Calculate the amount of potassium chlorate (KClO_(3)) which must be heated to produce 2.4 litres of oxygen at 740 mm Hg and at 25^(@)C .

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 .)

KClO_(3) on heating decomposes to give KCl and O_(2) . What is the volume of O_(2) at N.T.P liberated by 0.1 mole of KClO_(3) ?