Introduction To Chemistry
Introduction To Chemistry
5th Edition
ISBN: 9781259911149
Author: BAUER, Richard C., Birk, James P., Marks, Pamela
Publisher: Mcgraw-hill Education,
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Chapter 6, Problem 126QP

A 150.0-g sample of copper is heated to 89 .3°C . The copper is then placed in 125.0 g of water held in a calorimeter at 22 .5°C . The final temperature of mixture is 29 .0°C . Assuming no heat is lost from the water, What is the specific heat of copper?

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Interpretation Introduction

Interpretation:

The specific heat of copper is to be determined.

Concept Introduction:

Specific heat of a substance is defined as the amount of heat required to raise the temperature of 1 g of that substance by 1°C .

Answer to Problem 126QP

Solution:

The specific heat of copper is found to be 0.38 J/g°C .

Explanation of Solution

Given Information: Mass of copper and water is 150 g and 125 g , respectively. The temperatures of copper and water are 89.3°C and 22.5°C , respectively. The final temperature of the mixture is 29.0°C .

Heat transfer takes place from high temperature to low temperature. So, the temperature of copper will decrease and that of water will increase to attain thermal equilibrium. At thermal equilibrium, temperature of both copper and water will be equal.

The heat lost by the copper can be calculated as follows.

qCu=mCu×CCu×ΔTCu

Here, qCu is the heat lost by the copper, mCu is the given mass of the copper, CCu is the specific heat of the copper, and ΔTCu is the decrease in temperature of the copper.

Substitute 150 g for mCu and T°C89.3°C for ΔTCu in the above equation. Here, T°C is the temperature of copper and water at thermal equilibrium.

qCu=150 g×CCu×T°C89.3°C

Substitute 29.0°C for T°C in the above equation.

qCu=150 g×CCu×29.0°C89.3°C=150 g×CCu×60.3°C=9045 g.°CCCu

The heat gained by the water can be calculated as follows.

qwater=mwater×Cwater×ΔTwater

Here, qwater is the heat gained by the water, mwater is the given mass of the water, Cwater is the specific heat of the water, and ΔTwater is the increase in the temperature of water.

Substitute 125 g for mwater , 4.184 J/g°C for Cwater , and T°C22.5°C for ΔTwater in the above equation. Here, T°C is the temperature of water and copper at thermal equilibrium.

qwater=125 g×4.184 J/g°C×T°C22.5°C

Substitute 29.0°C for T°C in the above equation.

qwater=125 g×4.184 J/g°C×29.0°C22.5°C=125 g×4.184 J/g°C×6.5°C=3399.5 J

As no heat is lost from the water, according to the law of conservation of energy, the total heat of the system remains conserved.

qwater+qCu=0

The specific heat of the copper can be calculated using the above equation and the calculated values of qwater and qCu are as follows.

3399.5 J+9045 g°CCCu=09045 g°CCCu=3399.5 JCCu=3399.5 J9045 g°CCCu=0.38 J/g°C

Therefore, the specific heat of the copper is 0.38 J/g°C .

Conclusion

The specific heat of the copper is 0.38 J/g°C .

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