3.What would the volume of air inside a 40.0 L tire under 218 kPa of pressure occupy if it all escaped into a balloon at 101.3 kPa? 4. As a car is driven, the tires heat up and the volume and the pressure change. Calculate the new pressure of a 30.0 L tire initially at 255 kPa that expands to 32.3 L when it heats up from 17.0°C to 41.0°C. 5. Calculate the partial pressure of oxygen in the air at 100 kPa if nitrogen has a partial pressure of 82 kPa and carbon dioxide and water combined have a partial pressure of 0.77 kPa.

Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Chapter1: Introduction
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3.What would the volume of air inside
a 40.0 L tire under 218 kPa of pressure
occupy if it all escaped into a balloon
at 101.3 kPa?
4. As a car is driven, the tires heat up
and the volume and the pressure
change. Calculate the new pressure of
a 30.0 L tire initially at 255 kPa that
expands to 32.3 L when it heats up
from 17.0°℃ to 41.0°C.
5. Calculate the partial pressure of
oxygen in the air at 100 kPa if nitrogen
has a partial pressure of 82 kPa and
carbon dioxide and water combined
have a partial pressure of 0.77 kPa.
Transcribed Image Text:3.What would the volume of air inside a 40.0 L tire under 218 kPa of pressure occupy if it all escaped into a balloon at 101.3 kPa? 4. As a car is driven, the tires heat up and the volume and the pressure change. Calculate the new pressure of a 30.0 L tire initially at 255 kPa that expands to 32.3 L when it heats up from 17.0°℃ to 41.0°C. 5. Calculate the partial pressure of oxygen in the air at 100 kPa if nitrogen has a partial pressure of 82 kPa and carbon dioxide and water combined have a partial pressure of 0.77 kPa.
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