2) Androecium : Stamen : : Gynoecium :………. 3) China clay :…………..: : Multani mitti : Cosmetics
Answers
Answer:
Balanced Chemical Equation:
⇒ N₂ + 3H₂ = 2NH₃
1 mole of Nitrogen reacts with 3 moles of Hydrogen to form 2 moles of Ammonia.
Given Mass of Nitrogen = 200 g
Molecular Mass of Nitrogen = 28 g
Therefore number of moles (n) = 200g / 28g
⇒ n(N) = 7.14 moles of Nitrogen
Given mass of Hydrogen = 200 g
Molecular Mass of Hydrogen = 2 g
Therefore no of moles (n) = 200g / 2g
⇒ n(H) = 100 moles of Hydrogen
According to the balanced chemical reaction, 1 mole of Nitrogen reacts with 3 moles of Hydrogen. Hence 7.14 moles of Hydrogen would react with:
\implies x = \dfrac{7.14 \times 3}{1} = \boxed{\bf{21.42\textbf{ moles of Hydrogen}}}⟹x=
1
7.14×3
=
21.42 moles of Hydrogen
But since we have 200 moles of Hydrogen which is in excess, the limiting reagent is Nitrogen.
(Limiting Reagent refers to the substance which is present in lesser quantity which gets depleted completely once the reaction is over.)
Hence if 1 mole of Nitrogen gives 2 moles of Ammonia, 7.14 moles of Nitrogen will give:
\implies y = \dfrac{2 \times 7.14}{1} = \boxed{\bf{14.28\textbf{ moles of Ammonia}}}⟹y=
1
2×7.14
=
14.28 moles of Ammonia
In terms of grams, we get:
⇒ 14.28 × Molar Mass of Ammonia
⇒ 14.28 × 17 = 242.76 grams of Ammonia