The source of energy used to react chlorine with methane is sunlight. Sunlight is required to split the chlorine molecule (Cl2) into two atoms of chlorine (Cl). These atoms of chlorine then react with the methane molecule (CH4) to form carbon tetrachloride (CCl4).
Other related questions:
Q: How does methane react with chlorine?
A: When methane (CH4) reacts with chlorine (Cl2), it forms chloromethane (CH3Cl) and hydrogen chloride (HCl).
Q: What kind of reaction is methane and chlorine?
A: Methane and chlorine can react to form several different products, depending on the conditions. For example, if methane and chlorine are mixed in the presence of sunlight, they can react to form chloromethane, dichloromethane, and other chlorinated hydrocarbons.
Q: How does chlorine react with methane in the presence of sunlight?
A: In the presence of sunlight, chlorine reacts with methane to form carbon tetrachloride and water.
Q: What is the role of UV radiation during the reaction between chlorine and methane?
A: UV radiation plays an important role in the reaction between chlorine and methane. It can help to break down the bonds between the atoms in the molecules of both substances, making them more reactive and allowing them to combine more easily. Additionally, UV radiation can also help to catalyze the reaction, making it occur more quickly.