Lake Titicaca is situated at an altitude of 3810 m in the Bolivian Andes. Calculate the...

The solubility of oxygen, O2, in water is 7.20 ✕ 10−4 mol/L at 0°C when the...

The solubility of oxygen, O2, in water is 7.20 ✕ 10−4 mol/L at 0°C when the nitrogen pressure above water is 0.554 atm. Calculate the solubility of oxygen in water when the partial pressure of oxygen above water is 1.083 atm at 0°C? The Henry's Law constant for oxygen is 1.30 ✕ 10−3 mol/ L atm.

What is the concentration of nitrogen (in mg/L) in a Lake Tahoe at 250C if the...

What is the concentration of nitrogen (in mg/L) in a Lake Tahoe at 250C if the altitude of the lake is 6254 ft and atmospheric pressure at see level is 1.02 atm. Consider KH = 6.4 x 10–9 mol L-1 Pa–1. Assume no salinity or other impacts of dissolution of nitrogen in the water.

In water at 68°F at sea level (1 atm), water contains about 42 mg/L of dissolved...

In water at 68°F at sea level (1 atm), water contains about 42 mg/L of dissolved oxygen. Determine the value of Henry's law constant for oxygen dissolving in water. Recall that air is 21% oxygen. A) 6.3 ´ 10–3 mol/(L atm) B) 0.010 mol/(L atm) C) 0.25 mol/(L atm) D) 1.9 ´ 10–2 mol/(L atm) E) 1.3 ´ 10–3 mol/(L atm)

Use Henry's law and the solubilities given below to calculate the total volume of nitrogen and...

Use Henry's law and the solubilities given below to calculate the total volume of nitrogen and oxygen gas that should bubble out of 2.0 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...

The Henry's law constant for O2 in water at 25 °C is 1.25 × 10-5 mol...

The Henry's law constant for O2 in water at 25 °C is 1.25 × 10-5 mol L-1 kPa-1, and the solubility is 1.5 × 10-3 mol L-1. What is the partial pressure of O2 under these conditions?

Calculate the concentration of Co2 in rainwater at 25C using Henry's law. Assume that the water...

Calculate the concentration of Co2 in rainwater at 25C using Henry's law. Assume that the water is saturated with air that contains 350 ppm of CO2. The Henry's law constant for CO2 is KH=3.4X10-2 MOL/L-ATM at 15C . Express the result in molarity and ppm. Calculate the concentration of NO in rainwater at 25 C that is in equlibrium with polluted air where the NO concentration is 10 ppm. The Henry's law constant for No is Kh=2x10-4 mol/l-atm at 25C...

What would be the saturation concentration (mol/L) of oxygen in a river in winter when the...

What would be the saturation concentration (mol/L) of oxygen in a river in winter when the air temperature is 0 °C if the Henry’s law constant at this temperature is 2.28×10^(-3) molL^(-1) atm^(-1) ? What would be the answer in units of mg/L?

Calculate the temperature and the density of atmospheric air at 3600 m altitude, when the field...

Calculate the temperature and the density of atmospheric air at 3600 m altitude, when the field of atmospheric pressures is given by the expression: p = p0 (1 - cz) ^(5.25) where z is the altitude,and p0 and c are constants p0 = 0.1x10^6Pa c = 0.021km^(-1). Consider the air as an ideal gas of molar mass M = 0.029kg/mol

The solubility of CO2 in a salt water lake at 298 K and 750 torr pressure...

The solubility of CO2 in a salt water lake at 298 K and 750 torr pressure was found to be 1.0 x 10-5 moles CO2/liter of aqueous solution. The Henry’s Law constant in this case is 3.0 x 10-2 mol/L.atm. Please find the partial pressure of CO2 (g) (PCO2, in atm) in the air above the lake (2) Please use your answer to determine the percentage of CO2 in the atmosphere (2) Given the percentage of CO2 in the atmosphere...

A lake of area 10 5 m2 and depth 10 m receives an input of 400...

A lake of area 10 5 m2 and depth 10 m receives an input of 400 mol/d of chemical in an effluent discharge. Chemical is also present in the inflow water of 104 m3/d at a concentration of 0.01 mol/m3. The chemical reacts with a first order rate constant of 10-3 h -1. The outflow is 8000 m3/d, there being some loss of water by evaporation (assume none of the chemical volatilizes). Assuming that the lake water is well mixed,...