Textbook Question
The percent by volume of oxygen (20.95%) is constant throughout
the troposphere.
(a) Express this percentage as a mole fraction.
1866
views
Ch.10 - Gases: Their Properties & Behavior
Chapter 10, Problem 135c
Pakistan's K2 is the world's second-tallest mountain, with an altitude of 28,251 ft. Its base camp, where climbers stop to acclimate, is located about 16,400 ft above sea level. (c) Assuming the mole fraction of oxygen in air is 0.2095, what is the partial pressure of oxygen in mm Hg at the summit of K2?
Verified Solution
Video duration:
2m
This video solution was recommended by our tutors as helpful for the problem above.Was this helpful?
Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Partial Pressure
Partial pressure refers to the pressure exerted by a single component of a gas mixture. In the context of atmospheric gases, it is calculated by multiplying the total pressure of the gas mixture by the mole fraction of the specific gas. This concept is crucial for understanding how gases behave in different altitudes, where total atmospheric pressure decreases.
Recommended video:
Guided course
00:48
Partial Pressure Calculation
Mole Fraction
Mole fraction is a way of expressing the concentration of a component in a mixture, defined as the number of moles of that component divided by the total number of moles of all components in the mixture. In this case, the mole fraction of oxygen in air is given as 0.2095, indicating that approximately 20.95% of the air is oxygen, which is essential for calculating its partial pressure.
Recommended video:
Guided course
00:36Mole Fraction Formula
Atmospheric Pressure at Altitude
Atmospheric pressure decreases with increasing altitude due to the reduction in the weight of the air above. At sea level, the average atmospheric pressure is about 760 mm Hg, but at higher altitudes, such as the summit of K2, this pressure is significantly lower. Understanding how to calculate the atmospheric pressure at different altitudes is vital for determining the partial pressure of gases like oxygen.
Recommended video:
Guided course
02:09Total Pressure Example
Related Practice
Textbook Question
A driver with a nearly empty fuel tank may say she is 'running
on fumes.' If a 15.0-gallon automobile gas tank had
only gasoline vapor remaining in it, what is the farthest the
vehicle could travel if it gets 20.0 miles per gallon on liquid
gasoline? Assume the average molar mass of molecules in gasoline
is 105 g/mol, the density of liquid gasoline is 0.75 g/mL,
the pressure is 743 mm Hg, and the temperature is 25 °C.
630
views
Textbook Question
Pakistan's K2 is the world's second-tallest mountain, with an altitude of 28,251 ft. Its base camp, where climbers stop to acclimate, is located about 16,400 ft above sea level. (a) Approximate atmospheric pressure P at different altitudes is given by the equation P = e-h/7000, where P is in atmospheres and h is the altitude in meters. What is the approximate atmospheric pressure in mm Hg at K2 base camp?
832
views
Textbook Question
Assume that you take a flask, evacuate it to remove all the air, and find its mass to be 478.1 g. You then fill the flask with argon to a pressure of 2.15 atm and reweigh it. What would the balance read in grams if the flask has a volume of 7.35 L and the temperature is 20.0 °C?
679
views
Textbook Question
The apparatus shown consists of three temperature-jacketed 1.000-L bulbs connected by stopcocks. Bulb A contains a mixture of H2O(g), CO2(g), and N2(g) at 25 °C and a total pressure of 564 mm Hg. Bulb B is empty and is held at a temperature of -70 °C. Bulb C is also empty and is held at a temperature of -190 °C. The stopcocks are closed, and the volume of the lines connecting the bulbs is zero. CO2 sublimes at -78 °C, and N2 boils at -196 °C.
(a) The stopcock between A and B is opened, and the system is allowed to come to equilibrium. The pressure in A and B is now 219 mm Hg. What do bulbs A and B contain?
401
views
Textbook Question
The apparatus shown consists of three temperature-jacketed 1.000-L bulbs connected by stopcocks. Bulb A contains a mixture of H2O(g), CO2(g), and N2(g) at 25 °C and a total pressure of 564 mm Hg. Bulb B is empty and is held at a temperature of -70 °C. Bulb C is also empty and is held at a temperature of -190 °C. The stopcocks are closed, and the volume of the lines connecting the bulbs is zero. CO2 sublimes at -78 °C, and N2 boils at -196 °C.
(b) How many moles of H2O are in the system?
767
views