(a)
Interpretation:
Given transformation is whether uphill in energy or downhill in energy has to be predicted.
Concept Introduction:
Enthalpy change of a reaction is the heat energy exchange with its surroundings at constant pressure.
The reactions can be classified as exothermic reactions and endothermic reactions.
Exothermic reactions are those in which heat is liberated and have negative enthalpy change whereas the endothermic reactions are those in which heat is absorbed and have positive enthalpy change.
Dehydrogenation is a
(b)
Interpretation:
Given transformation is whether uphill in energy or downhill in energy has to be predicted.
Concept Introduction:
Enthalpy change of a reaction is the heat energy exchange with its surroundings at constant pressure.
The reactions can be classified as exothermic reactions and endothermic reactions.
Exothermic reactions are those in which heat is liberated and have negative enthalpy change whereas the endothermic reactions are those in which heat is absorbed and have positive enthalpy change.
Dehydrogenation is a chemical reaction that involves the removal of hydrogen from a molecule as
(c)
Interpretation:
Given transformation is whether uphill in energy or downhill in energy has to be predicted.
Concept Introduction:
Enthalpy change of a reaction is the heat energy exchange with its surroundings at constant pressure.
The reactions can be classified as exothermic reactions and endothermic reactions.
Exothermic reactions are those in which heat is liberated and have negative enthalpy change whereas the endothermic reactions are those in which heat is absorbed and have positive enthalpy change.
Dehydrogenation is a chemical reaction that involves the removal of hydrogen from a molecule as

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Chapter 17 Solutions
Organic Chemistry
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