Explanation The thermochemical equation is given below, C ( s, graphite ) + 0 .5 O 2 ( g ) → CO ( g ) Δ H = − 110.5 kJ Number of moles of C O can be calculated as follows, n = M a s s M o l a r mass = 52.0 g 28 .01 g/mol = 1

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Chapter 5, Problem 5.46QE

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Change in enthalpy for reaction when 52.0 g CO is formed has to be determined.

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Chapter 5, Problem 5.45QE

Chapter 5, Problem 5.47QE

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Chemistry Principles And Practice

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Change in enthalpy for reaction when 52 .0 g CO is formed has to be determined.

Solution Summary: The author explains that the change in enthalpy for reaction when 52 .0 g CO is formed has to be determined. The thermochemical equation is given below.

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Change in enthalpy for reaction when 52.0 g CO is formed has to be determined.

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Chapter 5 Solutions

Change in enthalpy for reaction when 52 .0 g CO is formed has to be determined.

Solution Summary: The author explains that the change in enthalpy for reaction when 52 .0 g CO is formed has to be determined. The thermochemical equation is given below.

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Interpretation: Change in enthalpy for reaction when 52.0 g CO is formed has to be determined.

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Chapter 5 Solutions

Interpretation:

Change in enthalpy for reaction when 52.0 g CO is formed has to be determined.