Yes. H2CO is formaldehyde or methanal. It has two single C-H bonds and a C=O double bond
C = sp^2 hybridization N = sp^3 hybridization
CCl4 features all single covalent bonds, so the hybridization is sp3.
H2CO; H2CO is polar, whereas CH3CH3 is nonpolar. H2CO has dipole forces in addition to LD forces. CH3CH3 only has LD forces.
The C atom of HCHO has 3 sigma bonds and a pi bonds. Hence the hybridization of C is sp2.
sp2
Yes. H2CO is formaldehyde or methanal. It has two single C-H bonds and a C=O double bond
C = sp^2 hybridization N = sp^3 hybridization
CCl4 features all single covalent bonds, so the hybridization is sp3.
H2CO; H2CO is polar, whereas CH3CH3 is nonpolar. H2CO has dipole forces in addition to LD forces. CH3CH3 only has LD forces.
C in carbon monoxide is sp hybridized.
C in carbon monoxide is sp hybridized.
The C atom of HCHO has 3 sigma bonds and a pi bonds. Hence the hybridization of C is sp2.
The hybridization of carbon could vary depending on the nature of compounds. It could be sp (as in alkynes), sp2 (as in alkenes, carbonyl groups) or sp3 (as in alkanes).
Formaldehyde
H2CO
Formaldehyde H2CO