The mole fraction of nitrous oxide in dry air near sea level is 0.00000050, where the molar mass of nitrous oxide is 44.013. The partial pressure of nitrous oxide when the total atmospheric pressure (dry air) is 97.5 kPa is __________ kPa.
The mole fraction of nitrous oxide in dry air near sea level is 0.00000050, where the...
1. What is the difference in blood oxygen concentration between a person at sea level where the air pressure is 1.0 atm and the top of K2, where the total air pressure is 34.7 kPa? (You can assume the mole fraction of oxygen in air remains constant at 0.21 (or 21% of the total air pressure is oxygen), the temperature is 37 C, and that the solubility of oxygen in blood at 37 C is approximately 1.0 x 10-3 mol/L-atm.)
The mass percentage composition of dry air at sea level is approximately N2: 75.5; O2: 23.2; Argon: 1.3. What is the partial pressure of each component when the total pressure is 1.60 atm?
2) Atoms are Very Small The components of dry air at sea level are shown. (The oX TABLE 7.3Atmospheric Composition Near Sea Level of air at 1 atm and 25 °C, how many helium atoms would be in the tiny box? Note that 1 cm (Dry Air)* Component Mole Fraction N2 O2 Ar CO2 Ne He CH4 Kr 0.78084 0.20948 0.00934 0.000345 0.00001818 0.00000524 0.00000168 0.00000114 0.0000005 0.0000005 0.000000087 NO Xe
Calculate the partial pressure of O2 (P02, mm Hg) in dry air in Arcata (sea level- assume atmospheric pressure of 760 mm Hg). Arcata air never gets fully dry. Assume 90% humidity at 15°C (saturated water vapor pressure at 15°C=12.8 mm Hg) and calculated the actual partial pressure of O2 in Arcata air
A student who lives near sea level attaches a Magdeburg Sphere of diameter 14 cm to a vacuum pump. When the absolute pressure inside the sphere reaches 31.8 kPa,the student tries to pull the sphere's apart. How much total force would be required to separate the spheres? (remember atmospheric pressure at sea level is 101.3 kPa) F = N
The partial pressure of O2 in air at sea level is 0.21 atm. The solubility of O2 in water at 20 ∘C , at 1 atm gas pressure, is 1.38×10−3 M. Using Henry's law and the data in the introduction, calculate the molar concentration of O2 in the surface water of a mountain lake saturated with air at 20 ∘C and an atmospheric pressure of 660 torr .
The partial pressure of CO2 in air at sea level is 0.239 torr. If the solubility of CO2 at this partial pressure and 25 °C is 0.034 M, calculate kH. What is the molarity of CO2 at Pco 7.60 torr. A solution contains a mixture of pentane (CsH12) and hexane (CsH14) at room temperature. The solution has a vapor pressure of 258 torr. Pure pentane has a vapor pressure of 425 torr and pure hexane has a vapor pressure of...
4. a. (18 points) Ethane (CH) is burned with dry air, giving the products having a molar analysis on a dry basis: CO2, 7.8%; CO, 0.2%, 02, 7%; N2, 85% (actual combustion). Determine: (3 points each) (a) the stoichiometric air-fuel ratio. (b) the actual air fuel ratio on molar and mass bases based on the given products of combustion. (c) the gravimetric wet analysis (mass fractions) of the products of the actual combustion. (d) the gas constant of the products...
The atmospheric pressure varies proportionally from sea level to height, and the air temperature drops by 6K for every T km increase (a) Draw a cylindrical volume that is height inside the atmosphere, and then calculate the pressure change and expression (dP/dy-pg) depending on the height. (b) obtain the temperature change of the atmosphere accordingto the height y(km) in the place where the sea level (y-0) is at ToK temperature. (c) obtain a barometric equation which allows for the change...
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A gas mixture with id entical mass fractions for each component will have the identical mole fractions 1. T F as well. T F 2. The sum of the mass fractions for a real-gas mixture is equal to 1 The molar mass of Methane is 0.5182 kg/kmol. 3. A real-gas mixture has a compressibility factor of 0.49. Using the ideal gas relationship, 4. the volume of the mixture b. Underestimates...