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Conformations of Cyclohexane
Substituted cyclohexanes are the most common cycloalkanes and occur widely in nature. A large number of compounds, including steroids and many pharmaceutical agents, have cyclohexane rings. The flavoring agent menthol, for instance, has three substituents on a six-membered ring.
Cyclohexane adopts a strain-free, three-dimensional shape that is called a chair conformation because of its similarity to a lounge chair, with a back, seat, and footrest (Figure 1-1). Chair cyclohexane has neither angle strain nor torsional strain—all C-C-C bond angles are near the 10° tetrahedral value, and all neighboring C H bonds are staggered.
Figure 1-1 The strain-free chair conformation of cyclohexane. All C-C-C bond angles are 111.5°, close to the ideal 109°tetrahedral angle, and all neighboring C-H bonds are staggered.
The easiest way to visualize chair cyclohexane is to build a molecular model. (In fact, do it now if you have access to a model kit.) Two dimensional drawings like that in Figure 4-7 are useful, but there’s no substitute for holding, twisting, and turning a three-dimensional model in your own hands. The chair conformation of cyclohexane can be drawn in three steps.
Step 1
Draw two parallel lines, slanted downward and slightly offset from each other. This means that four of the cyclohexane carbons lie in a plane.
Step 2
Place the topmost carbon atom above and to the right of the plane of the other four, and connect the bonds.
Step 3
Place the bottommost carbon atom below and to the left of the plane of the middle four, and connect the bonds. Note that the bonds to the bottommost carbon atom are parallel with the bonds to the topmost carbon. When viewing cyclohexane, it’s helpful to remember that the lower bond is in front and the upper bond is in back. If this convention is not defined, it can appear that the reverse is true.
For clarity, all cyclohexane rings drawn in this book will have the front (lower) bond heavily shaded to indicate nearness to the viewer.
In addition to the chair conformation of cyclohexane, there is an alternative conformation of cyclohexane that bears a slight resemblance to a boat. Boat cyclohexane has no angle strain but has a large number of eclipsing interactions that make it less stable than chair cyclohexane. A “twist” on this alternative can be found in twist-boat conformation, which is also nearly free of angle strain. It does, however, have both steric strain and torsional strain and is about 23 kJ/mol (5.5 kcal/mol) higher in energy than the chair conformation. As a result, molecules adopt the twist-boat geometry only under special circumstances.
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تفوقت في الاختبار على الجميع.. فاكهة "خارقة" في عالم التغذية
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أمين عام أوبك: النفط الخام والغاز الطبيعي "هبة من الله"
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المجمع العلمي ينظّم ندوة حوارية حول مفهوم العولمة الرقمية في بابل
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