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21 June, 16:29

A 1.63-g sample of a metal chloride, MCI 2, is dissolved in water and treated with excess aqueous silver nitrate. The silver chloride that formed

weighed 3.48 g. Calculate the molar mass of M.

a. 72.4 g/mol

b. 67 g/mol

c. 64 g/mol

d. 32 g/mol

e. 70.9 g/mol

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  1. 21 June, 20:13
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    The molar mass of M is 44.06 g/mol

    Explanation:

    The reaction between a metal chloride and silver nitrate will be given by the balanced equation:

    MCl (aq) + AgNO₃ (aq) →MNO₃ (aq) + AgCl (s)

    We are required to calculate the molar mass of M

    We are going to use the following steps:

    Step 1: Number of moles of silver nitrate

    Number of moles = Mass of a compound : Molar mass of the compound

    Molar mass of silver nitrate is 169.87 g/mol

    Therefore;

    Number of Moles = 3.48 g : 169.87 g/mol

    = 0.0205 moles

    Step 2: Moles of MCl that reacted

    From the equation; 1 mole of MCl reacts with 1 mole of silver nitrate

    Therefore; the mole ratio of MCl : AgNO3 is 1: 1

    Thus;

    Moles of MCl = 0.0205 moles

    Step 3: Molar mass of MCl

    From the question 1.63 g sample of MCl was used

    Therefore;

    1.63 g = 0.0205 moles

    Molar mass is the relative formula mass of one mole of a compound

    Therefore;

    Molar mass = 1.63 g : 0.0205 moles

    = 79.51 g/mol

    Step 3: Molar mass of M

    The relative formula mass of MCl is 79.51 g/mol

    Atomic mass of Cl = 35.45

    Thus;

    79.51 g/mol = M + 35.45 g

    M = 79.51 - 35.45

    = 44.06

    Thus, the molar mass of M is 44.06 g/mol
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