QUESTION IMAGE
Question
complete the following table.
| formula | lewis structure | polar? y/n | imfs |
|---|---|---|---|
| $hobr$ | |||
| $co_2$ | |||
| $ccl_4$ | |||
| $nh_3f$ (n is central) |
Step1: Determine Lewis structure of PCl₃
P has 5 valence - electrons and Cl has 7. P is central atom. P forms 3 single bonds with 3 Cl atoms and has 1 lone - pair.
Step2: Check polarity of PCl₃
The molecule has a trigonal - pyramidal shape due to the lone - pair on P. The bond dipoles do not cancel out, so it is polar (Y).
Step3: Identify IMFs in PCl₃
It has dipole - dipole forces and London dispersion forces.
Step4: Determine Lewis structure of HOBr
H has 1 valence - electron, O has 6, and Br has 7. O is central atom. O forms single bonds with H and Br and has 2 lone - pairs.
Step5: Check polarity of HOBr
The molecule is polar (Y) due to the electronegativity difference and non - symmetric shape.
Step6: Identify IMFs in HOBr
It has hydrogen bonding (due to H attached to O), dipole - dipole forces, and London dispersion forces.
Step7: Determine Lewis structure of CO₂
C has 4 valence - electrons and O has 6. C forms double bonds with 2 O atoms.
Step8: Check polarity of CO₂
The molecule is linear and the bond dipoles cancel out, so it is non - polar (N).
Step9: Identify IMFs in CO₂
It has only London dispersion forces.
Step10: Determine Lewis structure of CCl₄
C has 4 valence - electrons and Cl has 7. C forms 4 single bonds with 4 Cl atoms.
Step11: Check polarity of CCl₄
The molecule is tetrahedral and the bond dipoles cancel out, so it is non - polar (N).
Step12: Identify IMFs in CCl₄
It has only London dispersion forces.
Step13: Determine Lewis structure of NH₃F (N is central)
N has 5 valence - electrons, H has 1, and F has 7. N forms 3 single bonds with H atoms and 1 single bond with F and has 1 lone - pair.
Step14: Check polarity of NH₃F
The molecule is polar (Y) due to the electronegativity difference and non - symmetric shape.
Step15: Identify IMFs in NH₃F
It has hydrogen bonding (due to H attached to N), dipole - dipole forces, and London dispersion forces.
| Formula | Lewis Structure | Polar? Y/N | IMFs |
|---|---|---|---|
| HOBr | O with single bonds to H and Br and 2 lone - pairs | Y | Hydrogen bonding, dipole - dipole, London dispersion |
| CO₂ | C with double bonds to 2 O atoms | N | London dispersion |
| CCl₄ | C with 4 single bonds to Cl | N | London dispersion |
| NH₃F (N is central) | N with 3 single bonds to H, 1 single bond to F and 1 lone - pair | Y | Hydrogen bonding, dipole - dipole, London dispersion |
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| Formula | Lewis Structure | Polar? Y/N | IMFs |
|---|---|---|---|
| HOBr | O with single bonds to H and Br and 2 lone - pairs | Y | Hydrogen bonding, dipole - dipole, London dispersion |
| CO₂ | C with double bonds to 2 O atoms | N | London dispersion |
| CCl₄ | C with 4 single bonds to Cl | N | London dispersion |
| NH₃F (N is central) | N with 3 single bonds to H, 1 single bond to F and 1 lone - pair | Y | Hydrogen bonding, dipole - dipole, London dispersion |