Polar Covalent
2
3 Steps: Initiation: Cl--Cl bond is broken by homolytic fission. This energy is provided by UV light.Cl--Cl ----> Cl· + Cl·Propagation: 2 stagesCH4 + Cl· ----> ·CH3 + HCl·CH3 + Cl2 ---> CH3Cl + Cl·Termination: 2 radicals combine to form a moleculeCl· + Cl· ---> Cl2·CH3 + ·CH3 ---> C2H6·CH3 + Cl· ---> CH3Cl
NaNO3
CH4 + Cl2 → CH3Cl + HCl - monohlor metan CH3Cl + Cl2 → CHCl2 + HCl - dihlor metan CHCl2 + Cl2 → CHCl3 + HCl - trihlor metan CHCl3 + Cl2 → CCl4 + HCl - tetrahlor metan
The molecular shape of HCOOH is trigonal planar, I believe...
Yes, due to the fact that the C and CL have a non-polar relationship and H2O also is very non-polar. Like dissolves like, and you get your mix.
Yes. Examples are methyl chloride (chloromethane) CH3Cl, carbon tetrachloride, CCl4
Three - C = carbon H = hydrogen Cl = chlorine
ch3cl apex
CH3Cl is a polar bond. CH3Cl has a bond of three CH molecules and 1 bond of 1 C-Cl. The bond consists of a tetrahedral structural formation.
CH3Cl
No. There is no hydrogen bond in chloromethane.
The molecule CH3Cl has covalent bonds. In all chemical bonds, the type of force involved is electromagnetic.
The molecular structure of dichloromethane, or Methylene Chloride (CH2CL2), is tetrahedral, with the hydrogen and chlorine atoms peripheral to the central carbon atom.
This compound is chlorometane - CH3Cl. The correct value is 12,925.
Its because it is made of other elements to form a molecule
You start with methane (CH4 ) and chlorine ( Cl2) and react them thus:- CH4 + Cl2 → CH3Cl + HCl CH3Cl + Cl2 → CH2Cl2 + HCl CH2Cl2 + Cl2 → CHCl3 + HCl
Just replace one H and add a Cl (CH3Cl). In the next step replace another H by Cl. It's a chain reaction under sunlight: CH4+Cl2=CH3Cl+HCl CH3Cl+Cl2=CHCl2+HCL CH2Cl+Cl2=CHCl3+HCl CHCl3+Cl2=CCl4+HCl I'm sure now the structural formula will be apiece of cake.