I think you have a typo in your molecular formula
but
CH3Cl is a polar molecule
and CCL4 is a non-polar molecule
Chloroform has a low polar covalent bond.
yup it's polar
Yes.
Polar
ChCl3 is a polar compound. There are polar and non polar bonds.
CCl4 is not polar. But CHCl3 is polar.
The molecular geometry is tetrahedral. The orbitals are sp^3 hybridized. The molecule is polar. The bond angles are 109.47 degrees.
CHCl3 is the structure. There are polar bonds.
CHCl3 is a polar compound. it hasn't a color.
ChCl3 is a polar compound. There are polar and non polar bonds.
CCl4 is not polar. But CHCl3 is polar.
The molecular geometry is tetrahedral. The orbitals are sp^3 hybridized. The molecule is polar. The bond angles are 109.47 degrees.
CHCl3 is the structure. There are polar bonds.
CHCl3 is a polar compound. it hasn't a color.
PCl5
Covalent. Ionic bonds form between a metal and a non metal. 2 non metals usually means a covalent bond formed.
CO2 contains a pi bond between the carbon and oxygen atoms. CHCl3 contains a pi bond between the carbon and chlorine atoms. AsI3 does not contain a pi bond as it consists of single bonds. BeF2 also does not contain a pi bond as it forms only ionic bonds.
CHCl3 is a polar molecule. Its electron and molecular geometries are both tetrahedral, yet the Chlorine atoms are more electronegative than the Hydrogen atom, making the molecule polar.
In the increasing order, they are non polar covalent bond < polar covalent bond < ionic bond.
Electrons are shared unequally in a polar bond.
It is polar bond, a very weak polar bond the ^EN=0.5 but in many cases it is more practical to say that it is non-polar.