4 bonds. each between the carbon and the individual chloride. Now do ur homework by urself instead of getting others to do it.
CC14 is nothing. CCl4 is carbon tetrachloride. Carbon tet is a non-polar tetrahedral molecule with 4 covalent bonds.
The bond in carbon tetrachloride are polar covalent, but the CCl4 molecule a a whole is nonpolar due to the symmetrical arrangement oft he bonds.
Carbon tetrachloride is a covalent compound.
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.
There are four covalent bonds in Carbon Tetrachloride. The bonds sit between C and Cl.
CC14 is nothing. CCl4 is carbon tetrachloride. Carbon tet is a non-polar tetrahedral molecule with 4 covalent bonds.
The bond in carbon tetrachloride are polar covalent, but the CCl4 molecule a a whole is nonpolar due to the symmetrical arrangement oft he bonds.
Carbon tetrachloride is a covalent compound.
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.
There are four covalent bonds in Carbon Tetrachloride. The bonds sit between C and Cl.
Carbon dioxide has covalent bonds.
maximum of four (single) covalent bonds per carbon
Tin tetrachloride is a tetrahedral molecule that is nonpolar. The individual Sn-Cl bonds are polar, but the shape of the molecule, similar to carbon tetrachloride, makes the molecule itself nonpolar.
Hydrogen tetrachloride is not an existing molecule.
Carbon monoxide is a molecule with covalent bonds.
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.
The molecular shape of carbon tetrachloride is a tetrahedron, which negates the polarity of individual bonds, and makes the molecule non-polar.