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Calculate the molarity when 135 g of KCl is dissolved to make a 2.50 L solution. Round to two significant digits.
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Calculate the molarity when 135 g of KCl is dissolved to make a 2.50 L solution. Round to two significant digits.

User Roshonda
by
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1 Answer

7 votes

0.72 mol/L

Step-by-step explanation:


\textrm{Molarity of a solution}=\frac{\textrm{Number of moles of solvent}}{\textrm{Volume of solution in Liters}}

We are given a
2.50L solution which contains
135g of
KCl.

To calculate number of moles of
KCl present, we need to find it's molar mass from charts. Molar Mass of
KCl is known to be
74.55(g)/(Mol).

Number of moles of
KCl present =
\frac{\textrm{Given weight}}{\textrm{Molar Mass}}\textrm{ = }(135g)/(74.55(g)/(Mol))\textrm{ = }1.81087mol

Molarity =
(1.81087mol)/(2.50L)=0.7243(mol)/(L)

∴ Molarity of given
KCl solution =
0.72(mol)/(L)

User Gowiem
by
5.6k points
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