The chair and boat conformations of cyclohexane are shown below.Which statement best explains why the chair conformation is more stable than the boat conformation? 
A) The hydrogen atoms in the chair conformation are all staggered, which minimizes the repulsion of the bonding electrons.
B) The carbon atoms in the chair conformation are all eclipsed, which provides for the ideal bond angle of 109.5°.
C) The carbon atoms in the chair conformation are closer together than in the boat conformation, which provides for stronger C-C bonds.
D) The hydrogen atoms in the chair conformation are closer together than in the boat conformation, which provides for stronger C-H bonds.
E) The C-C bonds in the chair conformation are all staggered, which maximizes the energy of the molecule.
Correct Answer:
Verified
Q22: The name of an organic compound is
Q31: What type(s)of carbon-carbon bonds are never found
Q32: What is the IUPAC name of the
Q36: Butanone (structure shown) may be classified as
Q37: What term is used to describe the
Q38: Which compound is NOT an isomer with
Q39: Eicosane is the name of the organic
Q40: What additional condition or reagent is necessary
Q53: What is the molecular formula of butane?
A)C3H8
B)C4H8
C)C4H10
D)C2H6
E)None
Q59: Which name describes a three-carbon alkane?
A)pentane
B)butane
C)propane
D)heptane
E)methane
Unlock this Answer For Free Now!
View this answer and more for free by performing one of the following actions
Scan the QR code to install the App and get 2 free unlocks
Unlock quizzes for free by uploading documents