To draw the Lewis structure of butane (C4H10), we start by calculating the total number of valence electrons. Each carbon atom contributes 4 valence electrons, and each hydrogen atom contributes 1. Hence, the total is:
- Carbon: 4 x 4 = 16 electrons
- Hydrogen: 10 x 1 = 10 electrons
- Total = 16 + 10 = 26 valence electrons
Now we arrange the carbon atoms in a chain, since butane is an alkane with a linear structure. Each carbon atom forms four bonds:
H H | | H—C—C—C—C—H | | H H
In the Lewis structure, each line represents a bond between atoms. Every hydrogen atom is bonded to a carbon atom, and this fully satisfies their valence.
For the three-dimensional structure, we can visualize butane as having a zigzag formation due to the tetrahedral geometry around each carbon:
H H
\ /
C
/ \
H—C C—H
\ /
C
/ \
H H
Each carbon atom in butane is sp3 hybridized because they are each bonded to four other atoms (either C or H), resulting in a tetrahedral geometry around each carbon. The bond angles around each carbon atom are approximately 109.5 degrees.
In summary:
- Hybridization: Each carbon atom is sp3 hybridized.
- Bond angles: Approximately 109.5 degrees