20.0 kg of `N_(2(g))` and 3.0 kg of `H_(2(g))` are mixed to produce `NH_(3(g))`. The amount of `NH_(3(g))` formed is :-

50.0 kg of N_(2)(g) and 10.0 kg of H_(2)(g) are mixed to produce NH_(3)(g) . Calculate the NH_(3)(g) formed. Identify the limiting reagent in the production of NH_(3) in this situation.

50.0 kg of N_(2) (g) and 10 g of H_(2) (g) are mixed to produce NH_(3) (g) . Calculate the NH_(3) (g) formed. Identify the limiting reagent.

28 g of N_(2) and 6 g of H_(2) were mixed. At equilibrium 17 g NH_(3) was produced. The weight of N_(2) and H_(2) at equilibrium are respectively

What volume of H_(2)(g) is produced by decomposition of 2.4 L NH_(3) (g) ? .

Ammonia is produced in accordance with this equation . N_(2)(g) + 3H_(2)(g) rightarrow 2NH_(3)(g) In a particular experiment, 0.25mol of NH_(3) is formed when 0.5 mol of N_(2) is reacted with 0.5 mol of H_(2) . What is the percent yield?

40% of a mixture of 2.0 mol of N_(2) and 0.6 mol of H_(2) reacts to give NH_(3) according to the equation: N_(2)(g)+3H_(2)(g)hArr2NH_(3)(g) at constant temperature and pressure. Then the ratio of the final volume to the initial volume of gases are