Draw tert-butyl cyclohexane in a chair conformation with the substituent in an axial position. Determine the molecular formula and molecular mass of the compound.
Draw tert-butyl cyclohexane in a chair conformation with the substituent in an axial position. Determine the...
with explanation 1) Draw a chair conformation of cyclohexane. Then, draw and level properly all axial and equatorial positions on chair form of cyclohexane. 2) Draw chair, half-chair and boat conformations of ethyl cyclohexane and draw an energy diagram to explain their relative stability: 3) Draw two possible chair conformations for each of the mono-substituted cyclohexanes and determine their relative stability with proper explanation. OH 4) Draw two possible chair conformations for each of the di-substituted cyclohexanes and determine their...
3. (1 pt.) Draw the most stable chair conformation for the following trisubstituted cyclohexane (write letters a (axial), elequatorial), d(down), u(up)) next to each substituent to indicate is position in the ring. 1112 COOH
How would you draw the most stable conformation of trans-1-tert-butyl-3-methylcyclohexane? Axial tert-butyl group on C-1, Axial methyl group on C-3 Equatorial tert-butyl group on C-1, Axial methyl group on C-3 Axial tert-butyl group on C-1, Equatorial methyl group on C-3 Equatorial tert-butyl group on C-1, Equatorial methyl group on C-3 Choices b and care both correct Choices a and d are both correct Submit Answer Tries 0/1 How would you draw the most stable conformation of cis-1-chloro-3-fluorocyclohexane? Axial chlorine on...
How would you draw the most stable conformation of trans-1-tert-butyl-4-isopropylcyclohexane? Axial tert-butyl group on C-1, Axial isopropyl group on C-4 Axial tert-butyl group on C-1, Equatorial isopropyl group on C-4 Equatorial tert-butyl group on C-1, Axial isopropyl group on C-4 Equatorial tert-butyl group on C-1, Equatorial isopropyl group on C-4 Choices b and c are both correct Choices a and d are both correct تسليم الجواب Tries 0/1 How would you draw the most stable conformation of trans-1,3-cyclohexanediol? Axial hydroxyl...
How would you draw the most stable conformation of trans-1-tert-butyl-2-methylcyclohexane? O Axial tert-butyl group on C-1, Axial methyl group on C-2 Equatorial tert-butyl group on C-1, Axial methyl group on C-2 O Axial tert-butyl group on C-1, Equatorial methyl group on C-2 O Equatorial tert-butyl group on C-1, Equatorial methyl group on C-2 Choices b and c are both correct Choices a and d are both correct Submit Answer Tries 0/1
Draw SIX (6) cyclohexane molecules in the CHAIR conformation. Draw in all axial and equatorial hydrogens.
(a) Given a cyclohexane framework in a chair conformation, label each position as axial (ax.) or equatorial (eq.). (b) On the same figure, label all positions that are gauche (ga.) to the Y group on carbon 1. A bin may hold more than one label.
There are four possible 1-tert-buthil-4-methilcyclohexane isometric, in which the cyclohexane is is in a chair conformation. la) Draw the possible structures b) Indicate the most stable structure
1. Draw a chair conformation of cis-1-tert-butyl-2-ethyleyclohexane. Then, ring flip the chair to generate the other chair conformation, Circle the most stable conformation of the molecule (8 pts). 2. Designate the RIS configuration of all the stereocenters in the following molecules (8 pts): OH HO+CH3 H oH CHCI 3. Identify the relationship between the following molecules as: identical, constitutional isomers. enantiomers, or diastereomers (8 pts). enantiomers. e home enantiomers diastereomers. ó Tenantiomers. I Ć dias tereomers. MAC mome of the...
A trisubstituted cyclohexane compound is given below in its chair conformation. Draw the corresponding planar (overhead) representation, using wedges and hashed bonds to indicate the substituent positions. To be graded properly, include the hydrogen atoms on the chirality centers (asymmetric carbons). Be sure that both wedges/hashed bonds are drawn on the outside of the ring, or else the stereochemistry may be interpreted as square planar.