CH4 + 4Cl2 -----> CCl2 + 4HCl
This is the current common method of tetrachloride synthesis, under heat and pressure, although another involves further chlorinating of chlorocarbons e.g. C2Cl6 + Cl2. Earlier methods used chloroform or disulphide, reacted with chlorine.
The chemical formula for carbon and chlorine is CCl4 (carbon tetrachloride).
the chemical formula for carbon is C and for chlorine is Cl.
Scandium chloride (or scandium trichloride), ScCl3
When carbon reacts with chlorine, the result is a covalent compound, specifically, carbon tetrachloride. And of course, all sorts of organic compounds can be chlorinated by partial or complete replacement of hydrogen atoms by chlorine. But the compound will never be ionic.
A covalent bond exists between a carbon atom and a chlorine atom when they share electrons to achieve a stable electron configuration. Chlorine is more electronegative than carbon, so the shared electrons are pulled closer to the chlorine atom.
Anything that is not a noble gas will combine with chlorine.
carbon has a valency 4 so it can combine with 4 other elements to complete its octet it shares electrons with four chlorine atoms and in this way four covalent bonds are formed which leads to the formation of carbon tetrachloride
The chemical formula for carbon and chlorine is CCl4 (carbon tetrachloride).
The formula for carbon plus chlorine is CCl4, which represents carbon tetrachloride.
Carbon-carbon bonds are stronger than chlorine-chlorine bonds because carbon atoms are larger and form a stronger bond due to more effective overlap of atomic orbitals. Additionally, carbon-carbon bonds have more bonds and electrons shared between atoms compared to chlorine-chlorine bonds, making them stronger.
Zirconium can combine with elements such as oxygen, nitrogen, hydrogen, and carbon to form various compounds. These combinations lead to the formation of zirconium oxide, zirconium nitride, zirconium hydride, and zirconium carbide.
No, carbon-carbon double bonds are different from carbon-chlorine bonds. Carbon-carbon double bonds involve two carbon atoms sharing two pairs of electrons, while carbon-chlorine bonds involve a carbon atom covalently bonded to a chlorine atom by sharing one pair of electrons.
Just about every element except for the noble gasses can combine with chlorine. Commonly it is combined with sodium (to form table salt) and hydrogen (to form hydrochloric acid)
Chlorine and hydration
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Carbon tetrachloride is composed of one carbon atom and four chlorine atoms. To calculate the percent of chlorine in carbon tetrachloride, you would divide the molar mass of chlorine by the molar mass of the compound and multiply by 100. In this case, the percent of chlorine in carbon tetrachloride is approximately 82.3%.
The element that bonds with 4 chlorine atoms is carbon. Carbon tetrachloride is a compound where carbon forms bonds with 4 chlorine atoms.