A 1.99 mol sample of N₂ gas is confined in a 48.2 liter container at 22.1 °C. If the amount of gas is increased to 2.99 mol, holding the volume and temperature constant, the pressure will increase because: (Select all that apply.) As the average speed increases, the number of molecule-wall collisions decreases. With more molecules per unit volume, the molecules hit the walls of the container more often. With more molecules in the container, the molecules have higher average speeds. With higher average speeds, on average the molecules hit the walls of the container with more force. None of the Above
A 1.99 mol sample of N₂ gas is confined in a 48.2 liter container at 22.1 °C. If the amount of gas is increased to 2.99 mol, holding the volume and temperature constant, the pressure will increase because: (Select all that apply.) As the average speed increases, the number of molecule-wall collisions decreases. With more molecules per unit volume, the molecules hit the walls of the container more often. With more molecules in the container, the molecules have higher average speeds. With higher average speeds, on average the molecules hit the walls of the container with more force. None of the Above
Chemistry: The Molecular Science
5th Edition
ISBN:9781285199047
Author:John W. Moore, Conrad L. Stanitski
Publisher:John W. Moore, Conrad L. Stanitski
Chapter8: Properties Of Gases
Section: Chapter Questions
Problem 119QRT
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Transcribed Image Text:A 1.99 mol sample of N₂ gas is confined in a 48.2 liter container at 22.1 °C.
If the amount of gas is increased to 2.99 mol, holding the volume and temperature constant, the pressure will increase
because:
(Select all that apply.)
As the average speed increases, the number of molecule-wall collisions decreases.
With more molecules per unit volume, the molecules hit the walls of the container more often.
With more molecules in the container, the molecules have higher average speeds.
With higher average speeds, on average the molecules hit the walls of the container with more force.
None of the Above
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