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30 October, 07:00

A solution is prepared by dissolving 20.1 g of MgCl2 with the addition of 157.0 mL of water (density of water is 1.00g/cm3). The density of the resulting solution was determined to be 1.089g/cm3. Calculate the molar concentration of this solution: Hint: Make sure you understand the definition on Molar concentration

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  1. 30 October, 07:28
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    1.3 M.

    Explanation:

    We need to calculate the mass of the solution:

    mass of the solution = mass of MgCl₂ + mass of water

    mass of MgCl₂ = 20.1 g.

    mass of water = d. V = (157.0 mL) (1.0 g/cm³) = 157.0 g.

    ∴ mass of the solution = mass of MgCl₂ + mass of water = 20.1 g + 157.0 g = 177.1 g.

    Now, we can get the volume of the solution:

    V of the solution = (mass of the solution) / (density of the solution) = (177.1 g) / (1.089 g/cm³) = 162.62 mL = 0.163 L.

    Molarity is the no. of moles of solute dissolved in a 1.0 L of the solution.

    M = (no. of moles of MgCl₂) / (Volume of the solution (L)).

    ∴ M = (mass/molar mass) of MgCl₂ / (Volume of the solution (L)) = (20.1 g/95.211 g/mol) / (0.163 L) = 1.29 M ≅ 1.3 M.
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