This reaction is of a substitution type by a 'alkyl-radical' mechanism:
Cl2 + CH3-CH2-CH2-CH3 --> CH2Cl-CH2-CH2-CH3 + HCl
or (a bit more in favor)
Cl2 + CH3-CH2-CH2-CH3 --> CH3-CHCl-CH2-CH3 + HCl
Chlorine is a more reactive halogen than bromine, therefore, when chlorine gas is bubbled through a calcium bromide solution, the chlorine will take the place of the bromine. This is called an anionic single replacement (displacement) reaction. Cl2(g) + CaBr2(aq) --> Br2(l) + CaCl2(aq)
That is a balanced oxidation-reduction reaction. Hydrogen is oxidized, while chlorine is reduced.
It is an addition reaction which will then give us bromohydrin
Neutralization reaction occurs.
Covalent. Non-metals tend to share electrons
It is a combustion reaction, which is a type of redox reaction.
A single displacement reaction
Exchange synthesis reaction
ionic bond between Na+ ions and Cl- ions
An alkyl halide is obtained.
displacement reactiom
Ionic
A calcium atom will readily form Ca2+ ions while a chlorine atom will readily form Cl- atoms. Thus, ionic bonding is the only bonding that can occur between a calcium and a chlorine atom. The equation for the reaction is as follows: Ca + Cl2 --> CaCl2
anion
The compound contains the two elements Potassium and chlorine it is an exothermic chemical reaction because it releases heat energy when formed.
This is an addition reaction, as the double carbon-carbon bond in ethene breaks to accomodate the two chlorine atoms. Product is 1,2, dichloroethane
The reaction of chlorine with potassium bromide is a reduction-oxidation reaction. The chloride oxidizes bromide ions to molecular bromine, and itself is reduced to chloride ions.