Homework solutions for Chapter 11 21. At 0 °C and 1.00 atm, as much as 0.70 g of O2 can dissolve in 1 L of water. At 0 °C and 4.00 atm, how many grams of O2 dissolve in 1L of water? Solution g This problem requires the application of Henry's law. The governing equation is C= kP, 0.70 g -1 0.70 g atm %3D P 1.00 atm = 0.70 g atm 4.00 atm = 2.80 g. -1 Under the new conditions, 23. The Henry's law constant for CO2 is 3.4 × 10-2M/atm at 25 °C. Assuming ideal solution behavior, what pressure of carbon dioxide is needed to maintain a CO2 concentration of 0,10 M in a can of lemon-lime soda? Solution 0.10 M = 2.9 atm P. k 3.4 x 10 M/atm d nolution of nitric acid

In Henry s law，what is Cg ’s unit？isn‘ it true that C represent mol/L，why does Cg unit keep change from gram to M？？？ I am so confused

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Homework solutions for Chapter 11 21. At 0 °C and 1.00 atm, as much as 0.70 g of O2 can dissolve in 1 L of water. At 0 °C and 4.00 atm, how many grams of O2 dissolve in 1L of water? Solution This problem requires the application of Henry's law. The governing equation is C = kP C. 0.70 g -1 0.70 g atm P 1.00 atm Under the new conditions, = 0.70 g atm 1 4.00 atm = 2.80 g. 23. The Henry's law constant for CO2 is 3.4 x 10-2M/atm at 25 °C. Assuming ideal solution behavior, what pressure of carbon dioxide is needed to maintain a CO2 concentration of 0.10 M in a can of lemon-lime soda? Solution 0.10 M = 2.9 atm P. %3D %3! k 3.4 x 10 M/atm CIDIOL ond water in a concentrated solution of nitric acid