Theotically, methane can't react with Cl2 in shade as UV light is required to initiate the substitution reaction. Only when there is Cl2 can the C-H bond be broken. However, alkene can react directly with Cl2 due to hydrohalogenation.
Ch4 + 4cl2 ---> ccl4 + 4 hcl
The main products of the reaction between methane and chlorine are chloromethane (CH3Cl) and hydrogen chloride (HCl).
Potassium reacts with Chlorine to create Pottassium Chloride or KCl
It is a true statement that chlorine gas reacts with sodium metal to produce sodium chloride. The symbol for chlorine is Cl.
Electrons are shared between the chlorine atoms and the bromine atoms.
Methane does not react with chlorine in the dark.
When carbon reacts with chlorine, carbon tetrachloride is formed. This reaction occurs by the replacement of hydrogen atoms in a methane molecule with chlorine atoms. Carbon tetrachloride is a colorless liquid that was commonly used as a solvent and fire extinguisher.
When methane reacts with chlorine under sunlight, it forms chloromethane and hydrogen chloride. This reaction is a substitution reaction where one or more hydrogen atoms in methane are replaced by chlorine atoms. Overall, the reaction is exothermic and can be potentially explosive.
Ch4 + 4cl2 ---> ccl4 + 4 hcl
The main products of the reaction between methane and chlorine are chloromethane (CH3Cl) and hydrogen chloride (HCl).
Potassium reacts with Chlorine to create Pottassium Chloride or KCl
When excess potassium iodide is reacted with chlorine, the solution changes from colorless to dark brown due to the formation of Iodine (I2). Excess potassium iodide reacts with chlorine to form iodine, which imparts the dark brown color to the solution.
Sodium reacts with chlorine to form an ionic compound known as sodium chloride (table salt).
The compound formed when potassium reacts with chlorine is potassium chloride, which is a white crystalline solid.
It is a true statement that chlorine gas reacts with sodium metal to produce sodium chloride. The symbol for chlorine is Cl.
Yes, it is. Chlorine reacts with ozone in the form of CFC's.
When methane gas reacts with oxygen, it undergoes combustion to form carbon dioxide and water vapor. This reaction releases energy in the form of heat and light. Methane (CH4) + 2O2 → CO2 + 2H2O.