eclipsed and staggered conformations of ethane
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Conformations of Ethane
Introduction to Conformational Analysis
To understand why ethane has this extra degree of freedom, consider the cylindrically symmetric nature of $\sigma$ bonds. The $\sigma$ bond can maintain a full degree of overlap while its two ends rotate. Hence, the energetic barrier to rotation about sigma bonds is generally very low. Unlike $\pi$ bonds in alkenes, the C-C sigma bond does not hold the two methyl groups in fixed positions relative to one another. The different spatial arrangements formed by rotations about a single bond are called conformations or conformers.

Figure %: Free rotation about the C-C $\sigma$ bond in ethane.
Visualizing Conformations
Several methods are used by organic chemists to help them visualize the conformations of molecules. One of these methods uses Wedges to denote bonds that are extending out from the plane of the page toward the reader and Dashes to indicate bonds that are going into the plane of the page away from the reader. This notation is frequently used to represent the tetrahedral geometry of $sp^3$-hydridized carbons.
A Newman projection can be used to specify the conformation of a particular bond with clarity and detail. A Newman projection represents the head-on look down the bond of interest. The circle in the Newman projection represents the atom in front of the bond, and the lines radiating from the center are the bonds of that atom. The bonds of the rear atom emerge from the sides of the circle.

Figure %: How to draw a Newman projection.
Newman projections can be characterized by the angles formed between bonds on the front atom and bonds on the rear atom. Such angles are called dihedral angles. The full 3D shape of any molecule can be described by its bond lengths, bond angles, and dihedral angles.
Conformations of Ethane
While there are an infinite number of conformations about any sigma bond, in ethane two particular conformers are noteworthy and have special names. In the eclipsed conformation, the C-H bonds on the front and back carbons are aligned with each other with dihedral angles of 0 degrees. In the staggered conformation, the C-H bonds on the rear carbon lie between those on the front carbon with dihedral angles of 60 degrees.
Introduction to Conformational Analysis
To understand why ethane has this extra degree of freedom, consider the cylindrically symmetric nature of $\sigma$ bonds. The $\sigma$ bond can maintain a full degree of overlap while its two ends rotate. Hence, the energetic barrier to rotation about sigma bonds is generally very low. Unlike $\pi$ bonds in alkenes, the C-C sigma bond does not hold the two methyl groups in fixed positions relative to one another. The different spatial arrangements formed by rotations about a single bond are called conformations or conformers.

Figure %: Free rotation about the C-C $\sigma$ bond in ethane.
Visualizing Conformations
Several methods are used by organic chemists to help them visualize the conformations of molecules. One of these methods uses Wedges to denote bonds that are extending out from the plane of the page toward the reader and Dashes to indicate bonds that are going into the plane of the page away from the reader. This notation is frequently used to represent the tetrahedral geometry of $sp^3$-hydridized carbons.
A Newman projection can be used to specify the conformation of a particular bond with clarity and detail. A Newman projection represents the head-on look down the bond of interest. The circle in the Newman projection represents the atom in front of the bond, and the lines radiating from the center are the bonds of that atom. The bonds of the rear atom emerge from the sides of the circle.

Figure %: How to draw a Newman projection.
Newman projections can be characterized by the angles formed between bonds on the front atom and bonds on the rear atom. Such angles are called dihedral angles. The full 3D shape of any molecule can be described by its bond lengths, bond angles, and dihedral angles.
Conformations of Ethane
While there are an infinite number of conformations about any sigma bond, in ethane two particular conformers are noteworthy and have special names. In the eclipsed conformation, the C-H bonds on the front and back carbons are aligned with each other with dihedral angles of 0 degrees. In the staggered conformation, the C-H bonds on the rear carbon lie between those on the front carbon with dihedral angles of 60 degrees.
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