a. Use strain energy increments in the OWL Table Reference (see References button, Strain Energy Increments) to calculate the energy difference between the two chair conformations of the compound below. b. Specify substituent positions (axial or equatorial) in the more stable chair. c. Estimate the percent of the more stable chair at equilibrium at 25°C. (To determine the percent of the more stable chair at equilibrium, first calculate Keg, and then use this value to find the percentage.) H3C (in isopropanol) ers: a. The energy difference is b. In the more stable chair: OH kJ/mol. o The methyl group is in the [ The hydroxyl group is in the [ ☑position. ☐ position. c. At 25°C the equilibrium percent of the more stable chair conformation is approximately [
a. Use strain energy increments in the OWL Table Reference (see References button, Strain Energy Increments) to calculate the energy difference between the two chair conformations of the compound below. b. Specify substituent positions (axial or equatorial) in the more stable chair. c. Estimate the percent of the more stable chair at equilibrium at 25°C. (To determine the percent of the more stable chair at equilibrium, first calculate Keg, and then use this value to find the percentage.) H3C (in isopropanol) ers: a. The energy difference is b. In the more stable chair: OH kJ/mol. o The methyl group is in the [ The hydroxyl group is in the [ ☑position. ☐ position. c. At 25°C the equilibrium percent of the more stable chair conformation is approximately [
Organic Chemistry: A Guided Inquiry
2nd Edition
ISBN:9780618974122
Author:Andrei Straumanis
Publisher:Andrei Straumanis
Chapter6: Alkanes & Alkenes
Section: Chapter Questions
Problem 2E
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