The barrier of rotation for the C–C bond in bromoethane is 3.7 kcal/mol. We previously learned that an eclipsing C–H bond with another C–H is about 1 kcal/mol each. Based on this, what is the energy cost to eclipse a C–H bond with a C–Br bond?
The barrier of rotation for the C–C bond in bromoethane is 3.7 kcal/mol. We previously learned that an eclipsing C–H bond with another C–H is about 1 kcal/mol each. Based on this, what is the energy cost to eclipse a C–H bond with a C–Br bond?
Chapter3: Mechanisms
Section: Chapter Questions
Problem 96EQ
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The barrier of rotation for the C–C bond in bromoethane is 3.7 kcal/mol. We previously learned that an eclipsing C–H bond with another C–H is about 1 kcal/mol each. Based on this, what is the energy cost to eclipse a C–H bond with a C–Br bond?
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