A sample of neon gas at 320 K and 0.762 atm occupies a volume of 1.89 L. If the compressed into a smaller volume, while at the same time it is cooled to a lower temperature, the final gas pressure gas is O will be higher than 0.762 atm. could be higher or lower than 0.762 atm depending on the final volume and temperature. O will be lower than 0.762 atm.
A sample of neon gas at 320 K and 0.762 atm occupies a volume of 1.89 L. If the compressed into a smaller volume, while at the same time it is cooled to a lower temperature, the final gas pressure gas is O will be higher than 0.762 atm. could be higher or lower than 0.762 atm depending on the final volume and temperature. O will be lower than 0.762 atm.
Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter1: Chemical Foundations
Section: Chapter Questions
Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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Question
Transcribed Image Text:A sample of neon gas at 320 K and 0.762 atm
occupies a volume of 1.89 L. If the
compressed into a smaller volume, while at the
same time it is cooled to a lower temperature, the
final gas pressure
gas
is
O will be higher than 0.762 atm.
could be higher or lower than 0.762 atm
depending on the final volume and
temperature.
O will be lower than 0.762 atm.
Transcribed Image Text:A sample of oxygen gas at 306 K and 0.127 atm
occupies a volume of 1.87 L. If the pressure of the
gas is increased, while at the same time it is
heated to a higher temperature, the final gas
volume
O could be larger or smaller than 1.87 L
depending on the final pressure and
temperature.
O will be smaller than 1.87 L.
O will be larger than 1.87 L.
Expert Solution
Analysis
Given : initial pressure = 0.762 atm, initial volume = 1.89 L, initial temperature = 320 K.
To find : Final pressure of the gas.
Solution : As we know, according to the boyle's law " Pressure of the gas is inversely proportinal to the volume of tha gas."
According to the Charles's law " volume of the gas directly proportinal to the temperature of the gas."
According to the Gay-Lussac law " Pressure of the gas directly proportinal to the temperature of tha gas."
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