3. What is the molar concentration of nitric acid (63.0 g/mol) in a solution that is 60.5% HNO, (w/w)? The specific gravity of the solution is 1.39. (
3. What is the molar concentration of nitric acid (63.0 g/mol) in a solution that is 60.5% HNO, (w/w)? The specific gravity of the solution is 1.39. (
Chapter4: Calculations Used In Analytical Chemistry
Section: Chapter Questions
Problem 4.24QAP
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![1. 35.0 ug of pesticide is present in a 200.0 mL aqueous solution. Express the pesticide's
concentration in parts per million and parts per billion.
2. Calculate the molar analytical concentrations and pK of K,Fe(CN), (329.24 g/mol) that
contains 48.0 ppm.
3. What is the molar concentration of nitric acid (63.0 g/mol) in a solution that is 60.5% HNO,
(w/w)? The specific gravity of the solution is 1.39. (.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F225480a0-4880-4d19-97af-f9a18d637cec%2F5ccff2ba-4b78-4956-ba5d-d37724cd7b3f%2Ff3xdsbe_processed.jpeg&w=3840&q=75)
Transcribed Image Text:1. 35.0 ug of pesticide is present in a 200.0 mL aqueous solution. Express the pesticide's
concentration in parts per million and parts per billion.
2. Calculate the molar analytical concentrations and pK of K,Fe(CN), (329.24 g/mol) that
contains 48.0 ppm.
3. What is the molar concentration of nitric acid (63.0 g/mol) in a solution that is 60.5% HNO,
(w/w)? The specific gravity of the solution is 1.39. (.
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