Explanation In the balanced reaction, there are 2 moles N 2 H 4 , 1 mole N 2 O 4 , 3 moles N 2 and 4 moles H 2 O Case 1: Number of moles of N 2 H 4 = 2 N 2 O 4 i s h a l f N 2 H 4 . S o , N 2 O 4 = 2 2 = 1 N 2 is 3 2 times as N 2 H 4 . So, N 2 = 3 H 2 O i s 2 t i m e s N 2 H 4 . S o , H 2 O = 2 × 2 = 4 Case 2: Number of moles of N 2 O 4 = 5 N 2 O 4 is half N 2 H 4 . So, N 2 H 4 = 5 × 2 = 10 N 2 i s 3 2 t i m e s a s N 2 H 4 . S o , N 2 = 15 H 2 O i s 2 t i m e s N 2 H 4 . S o , H 2 O = 20 Case 3: Number of moles of H 2 O = 10 H 2 O i s 2 t i m e s N 2 H 4 . S o , N 2 H 4 = 5 N 2 O 4 i s h a l f N 2 H 4 . S o , N 2 O 4 = 1 2 × 5 = 2.5 N 2 i s 3 2 t i m e s a s N 2 H 4 . S o , N 2 = 7

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Stoichiometry is a chemical division that evaluates the quantitative content of the chemical process with the help of the reacting molecules or products taking part in the reaction. The term “stoicheion” in “Stoichiometry”, is an old Greek term for "elem…

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Chapter 4, Problem 30E

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To determine: The amount of reactant required to form the products as well as other reactants in moles.

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Chapter 4, Problem 29E

Chapter 4, Problem 31E

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Chapter 4 Solutions

Chemistry: A Molecular Approach

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The amount of reactant required to form the products as well as other reactants in moles.

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To determine: The amount of reactant required to form the products as well as other reactants in moles.

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Chapter 4 Solutions