Select the statements explaining how one can limit a radical chlorination reaction to produce mainly the monochlorinated alkane.
Which procedures promote monochlorination? Start the reaction with an excess of methane and an excess of chlorine. When the reaction is over, there will be a small amount of methane and a large excess of chloromethane. These can be separated easily due to their differing boiling points. When the reaction is over, there will be large amounts of chloromethane and methane. These can be easily separated due to their differing boiling points. When the reaction is over, there will be a small amount of chloromethane and a large excess of methane. These can easily be separated due to their differing boiling points. Start the reaction with an excess of methane and only a small amount of chlorine. Start the reaction with an excess of chlorine and only a small amount of methane.
Start the reaction with an excess of methane and only a small amount of chlorine.
When the reaction is over, there will be a small amount of chloromethane and a large excess of methane. These can be easily be separated due to their differing boiling points.
Free Radical halogenation is a substitution reaction in which a hydrogen atom is replaced with a halogen atom, via a free radical reaction mechanism.The halogen radical abstracts the hydrogen from our alkane as the first step. In this phase, we form our side product, in this case HCl. We will then interact with a different halogen molecule to produce a reaction. The halogenated product is produced in this stage, and the halogen radical is also renewed.
With an atomic number of 55, that means there are 55 protons. Because electrons do not count towards atomic weight, the element would have 150-55 neutrons. So, 95 neutrons.
