At room temperature, the solubility of bromine in bromoform is approximately 70 times greater than in water pure. Calculate: a) The weight of bromine in mg that exists in each of the two immiscible liquid layers after shaking vigorously with 12.0 mL of bromoform a 15.0 mL aqueous solution containing 0.0060 g of bromine. b) The percentage of bromine not extracted by CHBr3.
At room temperature, the solubility of bromine in bromoform is approximately 70 times greater than in water pure. Calculate: a) The weight of bromine in mg that exists in each of the two immiscible liquid layers after shaking vigorously with 12.0 mL of bromoform a 15.0 mL aqueous solution containing 0.0060 g of bromine. b) The percentage of bromine not extracted by CHBr3.
Principles of Modern Chemistry
8th Edition
ISBN:9781305079113
Author:David W. Oxtoby, H. Pat Gillis, Laurie J. Butler
Publisher:David W. Oxtoby, H. Pat Gillis, Laurie J. Butler
Chapter16: Solubility And Precipitation Equilibria
Section: Chapter Questions
Problem 52P
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At room temperature, the solubility of bromine in bromoform is approximately 70 times greater than in water pure. Calculate: a) The weight of bromine in mg that exists in each of the two immiscible liquid layers after shaking vigorously with 12.0 mL of bromoform a 15.0 mL aqueous solution containing 0.0060 g of bromine. b) The percentage of bromine not extracted by CHBr3.
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