In the case study “An aqueous apocalypse”, the concentration of ammonia in the white river sample was found to be 8ppm (parts per million). Parts per million is another unit of concentration, typically used to describe very dilute solutions. Given that 1 ppm = 1 mg of solute per 1 kg of solution, convert 8 ppm of ammonia in the water sample to its concentration in molarity, assuming that 1 kg of solution = 1 L of solution. Hint: Since 8 ppm = 8 mg of ammonia/ 1 kg of water sample, determine the moles of ammonia present in the water sample and convert 1 kg to L in order to calculate molarity.
In the case study “An aqueous apocalypse”, the concentration of ammonia in the white river sample was found to be 8ppm (parts per million). Parts per million is another unit of concentration, typically used to describe very dilute solutions. Given that 1 ppm = 1 mg of solute per 1 kg of solution, convert 8 ppm of ammonia in the water sample to its concentration in molarity, assuming that 1 kg of solution = 1 L of solution. Hint: Since 8 ppm = 8 mg of ammonia/ 1 kg of water sample, determine the moles of ammonia present in the water sample and convert 1 kg to L in order to calculate molarity.
Chemistry: Principles and Practice
3rd Edition
ISBN:9780534420123
Author:Daniel L. Reger, Scott R. Goode, David W. Ball, Edward Mercer
Publisher:Daniel L. Reger, Scott R. Goode, David W. Ball, Edward Mercer
Chapter4: Chemical Reactions In Solution
Section: Chapter Questions
Problem 4.117QE
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1. In the case study “An aqueous apocalypse”, the concentration of ammonia in the white river sample was found to be 8ppm (parts per million). Parts per million is another unit of concentration, typically used to describe very dilute solutions. Given that 1 ppm = 1 mg of solute per 1 kg of solution, convert 8 ppm of ammonia in the water sample to its concentration in molarity, assuming that 1 kg of solution = 1 L of solution.
Hint: Since 8 ppm = 8 mg of ammonia/ 1 kg of water sample, determine the moles of ammonia present in the water sample and convert 1 kg to L in order to calculate molarity.
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