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Calculate the mole fraction of oxygen given that the Henry's Law Constant is 2.09 × 107...
9. At 50°C, a liquid solution composed of A (with a mole fraction of 0.28) and B has a total vapor pressure of 182 torr and a partial pressure of A of 62 torr. The vapor pressure of pure liquid A is 254 torr and that of pure liquid B is 169 torr. (a) Calculate the activity and the activity coefficient of each component of the liquid based on the Raoult's Law. (b) Calculate the Henry's law constant of A...
please help I don't understand Using Henry's Law to calculate the solubility of a gas At 25.0 °C the Henry's Law constant for hydrogen sulfide (HS gas in water is 0.087 M/atm grams of HS gas that can be dissolved in 150. mL of water at 25.0 °C and a H,S partial pressure of 1.53 atm Calculate the mass Be sure your answer has the correct number of significant digits. X Check Explanation Using Henry's Law to calculate the solubility...
1. Given that the Henry's Law constant for carbon monoxide in water al 30°C is 1,8 x 105 per kPu mole fraction, calculate the percentage solubility by weight of carbon dioxide in water under these conditions and at a partial pressure of carbon monoxide of 120 kPa above the water.
Calculate the solubility of oxygen in water at a partial pressure of O2 of 343 torr at 25°C. The Henry's Law constant for oxygen in water is 1.28 x 10 mol/(atm L). mol/L
The Henry's Law constant at 298K for CS2 in water solution is Km= 1100 bar (mole fraction)^-1. The equilibrium vapor pressure of water at 298K is P*H20= 3170 pa. Assume CS2 and water form an ideal dilute solution, estimate the total vapor pressure above a solution which has Xcs2 = 3.0*10^-6 .
Use Henry's law and the solubilities given below to calculate the total volume of nitrogen and oxygen gas that should bubble out of 1.6 L of water upon warming from 25 ∘C to 50 ∘C. Assume that the water is initially saturated with nitrogen and oxygen gas at 25 ∘C and a total pressure of 1.0 atm. Assume that the gas bubbles out at a temperature of 50 ∘C. The solubility of oxygen gas at 50 ∘C is 27.8 mg/L...
TUTOR Henry's Law Oxygen gas has a Henry's law constant of 1.66x10 M/mmHg at 25.0 °C when dissolving in water. If the total pressure of gas (O2 gas plus water vapor) over water is 1.00 atm, what is the concentration of O2 in the water in grams per milliliter? Pressure of the water vapor at 25.0 °C-23.8 mmHg. g/mL
The log Henry's law constant (units of L-atm/mole and measured at 25 C) for trichloroethylene is 1.03; for tetrachloroethylene, 1.44; for 1, 2-dimethylbenzene, 0.71; and for parathion, -3.42. (a) What is the dimensionless Henry's law constant for each of these chemicals? (b) Rank the chemicals in order of ease of stripping from water to air. If needed use ideal gas Law (pV= nRT). R = 0.08205 (atm times L)/(mole times K). The dimensionless Henry's law constant is equal to K_H(L_H_2...
At 298 K, the Henry's law constant for oxygen is 0.00130 M/atm. Air is 21.0% oxygen. At 298 K, what is the solubility of oxygen in water exposed to air at 0.892 atm? If atmospheric pressure suddenly changes from 1.00 atm to 0.892 atm at 298 K, how much oxygen will be released from 4.60 L of water in an unsealed container?
The atomic mass of 186 74 W is 185.954362 amu. Calculate the nuclear binding energy per nucleon for this isotope. Take the mass of the proton to be 1.007825 amu and that of the neutron to be 1.008665 amu. Report your answer in J/nucleon to 3 significant figures in scientific notation in the format of 6.022E23 for 6.022 × 1023.