Chemical Reaction Stoichiometry: Calculating Mass of Reactant

How many grams of sodium would need to react with 4.5 moles of chloride?

A. 15.6 g
B. 103.5 g
C. 5.1 g
D. 157.55 g
E. 53.5 g

Answer:

Taking into account the reaction stoichiometry, 103.5 grams of Na⁺ is required to react with 4.5 moles of chloride.

In order to determine the amount of sodium needed to react with 4.5 moles of chloride, we must understand the concept of reaction stoichiometry.

Reaction Stoichiometry

In the given balanced equation:

Na⁺ + Cl⁻ → NaCl

According to reaction stoichiometry:

  • Na⁺: 1 mole
  • Cl⁻: 1 mole
  • NaCl: 1 mole

The molar masses of the compounds are:

  • Na⁺: 23 g/mole
  • Cl⁻: 35.45 g/mole
  • NaCl: 58.45 g/mole

Calculating the mass quantities of each compound involved in the reaction:

  • Na⁺: 1 mole × 23 g/mole = 23 grams
  • Cl⁻: 1 mole × 35.45 g/mole = 35.45 grams
  • NaCl: 1 mole × 58.45 g/mole = 58.45 grams

Calculating Mass of Sodium Ions Required

We can use the rule of three to find the mass of Na⁺ needed:

mass of Na⁺ = (4.5 moles of Cl⁻ × 23 grams of Na⁺) ÷ 1 mole of Cl⁻

mass of Na⁺ = 103.5 grams

Therefore, 103.5 grams of Na⁺ is required to react with 4.5 moles of chloride.

← Understanding c h bond strength in cyclopentene and compound a Constitutionally isomeric ethers of c h o →