(A) Number of moles of `H_(2)` in 0.224 L of `H_(2)` is 0.001 mol.
(R) 22.4 litres of `H_(2)` at STP contains `6.023xx10^(23)` mol.

The number of moles of H_(2) in 0.224 L of hydrogen gas a STP (273 K, 1 atm) assuming ideal gas behaviour is

What should be the number of moles of H_(2) in 0.224 L of H_(2)(g) at STP(273 K,1 atm) ? Assume the gas to behave ideally.

The term mole first used by Ostwald in 1896 refers for the ratio of mass of a substance in g and its molecular weight. 1 "mole" of a gaseous compound occupies 22.4 "litre" at NTP and contains 6.023xx10^(23) molecules of gas. The volume of air needed to burning 12 g carbon completely at STP is:

The term mole first used by Ostwald in 1896 refers for the ratio of mass of a substance in g and its molecular weight. 1 "mole" of a gaseous compound occupies 22.4 "litre" at NTP and contains 6.023xx10^(23) molecules of gas. The amount of sulphur required to produce 100 "mole" of H_(2)SO_(4) is:

The term mole first used by Ostwald in 1896 refers for the ratio of mass of a substance in g and its molecular weight. 1 "mole" of a gaseous compound occupies 22.4 "litre" at NTP and contains 6.023xx10^(23) molecules of gas. The maximum number of atoms present are in:

The term mole first used by Ostwald in 1896 refers for the ratio of mass of a substance in g and its molecular weight. 1 "mole" of a gaseous compound occupies 22.4 "litre" at NTP and contains 6.023xx10^(23) molecules of gas. weight of 1 "atom" of hydrogen is: