(a) Explanation The change in temperature Δ T is calculated below. Δ T = T f − T i Here T f is the final temperature and T i is the initial temperature. Substitute 33.10 ° C for T f and 24.0 ° C for T i in the above expression: Δ T = 33.10 ° C − 24.0 ° C = 9.10 ° C The energy change for water is calculated below. q w a t e r = m × c × Δ T Here q w a t e r is the heat released from the water, m is the mass, and c is the specific heat of the water. Substitute 2010 g for m , 4.184 J/g ° C for c , and 9 (b) Interpretation Introduction Interpretation: The heat of combustion of magnesium in kJ/g .

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Author: Rich Bauer, James Birk Professor Dr., Pamela S. Marks

Publisher: McGraw-Hill Education

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Chapter 6, Problem 102QP

(a)

Interpretation Introduction

Interpretation:

The amount of heat released by magnesium as it burned.

(b)

Interpretation Introduction

Interpretation:

The heat of combustion of magnesium in kJ/g .

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Chapter 6, Problem 101QP

Chapter 6, Problem 103QP

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The amount of heat released by magnesium as it burned.

Solution Summary: The author explains the amount of heat released by magnesium as it burned. The energy change for water is calculated.

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Interpretation: The amount of heat released by magnesium as it burned.

Interpretation: The heat of combustion of magnesium in kJ/g .

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Chapter 6 Solutions

Interpretation:

The amount of heat released by magnesium as it burned.

Interpretation:

The heat of combustion of magnesium in kJ/g .