   # Complete the following table for an ideal gas. ### Chemistry: An Atoms First Approach

2nd Edition
Steven S. Zumdahl + 1 other
Publisher: Cengage Learning
ISBN: 9781305079243

#### Solutions

Chapter
Section ### Chemistry: An Atoms First Approach

2nd Edition
Steven S. Zumdahl + 1 other
Publisher: Cengage Learning
ISBN: 9781305079243
Chapter 8, Problem 47E
Textbook Problem
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## Complete the following table for an ideal gas. Interpretation Introduction

Interpretation: From the given table, missed values of the temperature, pressure, volume and number of moles of an ideal gas should be determined on the basis of ideal gas equation.

Concept introduction:

By combining the three gaseous laws namely Boyle’s law, Charles’s law and Avogadro’s law a combined gaseous equation is obtained. This combined gaseous equation is called Ideal gas law.

According to ideal gas law,

PV=nRT

Where,

P = pressure in atmospheres

V= volumes in liters

n = number of moles

R =universal gas constant ( 0.08206L×atm/K×mol )

T = temperature in kelvins

By knowing any three of these properties, the state of a gas can be simply identified with applying the ideal gas equation.

### Explanation of Solution

(a)

To determine: The volume of an ideal gas in the row a from the rest of the other values.

According to ideal gas equation,

PV=nRT

From the given data to calculate the unknown temperature,

P = 5.00atm

V =?

n = 2.00mol

R =universal gas constant ( 0.08206L×atm/K×mol )

T = 155°C or 155+273=428 K       since, 273+°C=K

From the ideal gas equation, the unknown volume can be calculated as follows;

That is,        PV=nRT

Then, V=nRTP

By adding the given values in the above equation the volume can be determined,

So, the above equation becomes,

V=2.00mol×0.08206L×atm/K×mol×428K5.00atm

=14.0L

(b)

To determine: the number of moles of an ideal gas in the row b from the rest of the other values.

According to ideal gas equation,

PV=nRT

From the given data to calculate the unknown temperature,

P = 0.300atm

V =2.00L

n =?

R =universal gas constant ( 0.08206L×atm/K×mol )

T = 155 K

From the ideal gas equation, number of moles can be calculated as follows;

That is,        PV=nRT

Then,             n=PVRT

By adding the given values in the above equation the number of moles can be determined,

So, the above equation becomes,

n=0.300atm×2.00L0.08206L×atm/K×mol×155K

= 4.72×102 mol

(c)

To determine: the temperature of an ideal gas in the row c from the rest of the other values

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