what two molecules (separately) can be catalyzed with HCL to get 1 Chloro-1 Methylcyclohexane?

To find out which two molecules can be catalyzed with HCl to produce 1-Chloro-1-Methylcyclohexane, we need to consider the reaction between HCl and various compounds.

1-Chloro-1-Methylcyclohexane is an example of an alkyl halide, where a halogen atom (in this case, chlorine) is attached to an alkyl group (methylcyclohexane). In general, alkyl halides can be obtained by the reaction of an alcohol with a hydrogen halide (such as HCl) under suitable conditions.

In this specific case, we are looking for the reaction that involves the alcohol and HCl. Since 1-Chloro-1-Methylcyclohexane has the "methylcyclohexane" group, it suggests that the starting alcohol molecule should contain a cyclohexane ring.

One possible alcohol that can be reacted with HCl to produce 1-Chloro-1-Methylcyclohexane is Cyclohexanol (C6H11OH). The reaction can be represented as:

Cyclohexanol + HCl --> 1-Chloro-1-Methylcyclohexane + H2O

During the reaction, the HCl serves as a catalyst, assisting in the formation of the desired product.

Therefore, the two molecules involved in this reaction are Cyclohexanol and HCl.