Create the Lewis structure of CF4. NOTE: do only the step asked for in each part and then click Check–don’t work ahead to solve the final structure.
The Correct Answer and Explanation is :
To draw the Lewis structure of carbon tetrafluoride (CF₄), follow these steps:
- Determine the Total Number of Valence Electrons:
- Carbon (C) is in group 14 of the periodic table, so it has 4 valence electrons.
- Fluorine (F) is in group 17, contributing 7 valence electrons per atom.
- With four fluorine atoms, the total valence electrons from fluorine are 7 × 4 = 28.
- Adding these together, the total number of valence electrons is 4 (from C) + 28 (from F) = 32 electrons.
- Arrange the Atoms:
- Place the carbon atom in the center, as it is less electronegative than fluorine.
- Position the four fluorine atoms around the carbon atom.
- Form Single Bonds:
- Connect each fluorine atom to the carbon atom with a single bond.
- Each single bond consists of two electrons, so four bonds use 4 × 2 = 8 electrons.
- Distribute Remaining Electrons as Lone Pairs:
- After forming the bonds, 32 total electrons minus 8 electrons used in bonds leaves 24 electrons.
- Distribute these 24 electrons as lone pairs on the fluorine atoms.
- Each fluorine atom needs three lone pairs to complete its octet, using 3 × 4 = 12 electrons.
- The remaining 12 electrons are placed as lone pairs on the carbon atom.
- Verify the Octet Rule:
- Each fluorine atom has 8 electrons (2 from the bond and 6 from lone pairs), satisfying the octet rule.
- The carbon atom has 8 electrons (4 from bonds), also satisfying the octet rule.
The final Lewis structure shows a central carbon atom bonded to four fluorine atoms, each with three lone pairs, forming a tetrahedral geometry.
For a visual demonstration, you might find this video helpful:
videoHow to Draw The Lewis Structure for CF4 (Carbon Tetrafluoride)turn0search0