68 Chapter 3 walk CH3 H H H CH3 CH3 CH3 3.8 kJ/mol CH3 6.0 kJ/mol H H3C H CH3 HCH3 H CH3 H 3.8 kJ/mol 6.0 kJ/mol 6.0 kJ/mol at 60° energy = 3.8 kJ/mol at 120°: energy = 18.0 kJ/mol at 180°: energy = 3.8 kJ/mol CH₂ CH3 11.0 kJ/mol CH3 3.8 kJ/mol H CH3 3.8 kJ/mol HCH3 H CH3 H 4.0 kJ/mol 6.0 kJ/mol at 300°: energy = 7.6 kJ/mol at 240°: energy = 21.0 kJ/mol Use the lowest energy conformation as the energy minimum. The highest energy conformation is 17.2 kJ/mol higher in energy than the lowest energy conformation. for Li (02 Energy (kJ/mol) 21 MY 13.8 18 13.8 7.6 21 60° 120° 180° Angle of Rotation 240° 300° 360°

圧 342 2-メチルブタン (イソペンタン) を C2-C3 結合に沿って眺めて (a) 最も安定な立体配座の Newman 投影式を書け. (b) 最も不安定な立体配座の Newman 投影式を書け. OH (c) CH3 CH3 重なり形相互作用が 11kJ / mol (2.5kcal/mol), CH3 CH3 ゴーシュ相互 作用が3.8kJ/mol (0.9kcal/mol) である. これを用いて, C2-C3 結合の回転に対するポテン シャルエネルギーの定量的なグラフを描け. HO

217 7.6 381 CHS + 60 180 240 300 360 3.0 7.6 H HI H HO H C H 3.877 4 C C 11 I H C H C しさ。 I (3.8 TH 6 H6 IS C