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A chemist prepares a solution by adding 448 mg of Co(NO3)2 (MW = 182.94 g/mol ) to a volumetric flask, and then adding water until the total volume of the contents of the flask reaches the calibration
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A chemist prepares a solution by adding 448 mg of Co(NO3)2 (MW = 182.94 g/mol ) to a volumetric flask, and then adding water until the total volume of the contents of the flask reaches the calibration line that indicates 500 mL . Determine the molarity of the prepared solution.

User Sune
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1 Answer

2 votes

Answer:

Molarity of solution is 0.0049 M

Step-by-step explanation:

Molarity of a solution is the ratio of number of moles of solute to volume of solution in Liter

Number of moles is the ratio of mass to molecular weight of a compound.

Here
Co(NO_(3))_(2) is the solute.

448 mg of
Co(NO_(3))_(2) = 0.448 g of
Co(NO_(3))_(2)

So, 0.448 g of
Co(NO_(3))_(2) =
(0.448)/(182.94) moles of
Co(NO_(3))_(2) = 0.00245 moles of
Co(NO_(3))_(2)

Total volume of solution = 500 mL = 0.5 L

So, molarity of solution =
(0.00245)/(0.5)M=0.0049 M

User Hana
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