No, a triple bond exists when three pairs of electrons are shared between the same two atoms. In the case of carbon tetrachloride, there are four single bonds. The central carbon atom share one pair of electrons with each chlorine atom.
Carbon tetrachloride is a nonpolar molecule. Although the difference in electronegativies between carbon and chlorine is enough to make the bond polar, the fact that the molecule exists in a tetrahedral shape allows the electrons to be pulled by equal force in magnitude but opposite in direction . Because of this the polarities of the bonds cancel eachother out and the molecule carbon tetrachloride is determined to be non polar
No. It would probably have a double bond.
All single bonds, in tetrahedral shape.
SiCl4 has empty d orbitals but CCl4 doesn't. so a water molecule can trigger a reaction with SiCl4. It is a single covalent bond.
Polar Covalent bond (as in CCl4)
POLAR
CCl4 = All bonds are polar covalent. CaBr2 = ionic bond
I think you have a typo in your molecular formula but CH3Cl is a polar molecule and CCL4 is a non-polar molecule
Polar Covalent bond (as in CCl4)
SiCl4 has empty d orbitals but CCl4 doesn't. so a water molecule can trigger a reaction with SiCl4. It is a single covalent bond.
POLAR
CCl4 = All bonds are polar covalent. CaBr2 = ionic bond
I think you have a typo in your molecular formula but CH3Cl is a polar molecule and CCL4 is a non-polar molecule
Yes it is.
Yes it is.
A single covalent bond
The bonds in CCl4 are polar covalent.
In the increasing order, they are non polar covalent bond < polar covalent bond < ionic bond.
CCl4 is a covalent bond. Their difference in electronegativity isn't that great
it is a covalent bond because they are two nonmetals