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Williamson Ether Synthesis is a type of chemical reaction. If an individual is wanting to learn more about this chemical reaction, they may take college level courses in chemistry. Additionally, there are many books on chemistry which have information on Williamson Ether Synthesis.
Light reaction take place in day time. Dark reaction take place at night
Light reaction takes place. The first step of photosynthesis
chemical reaction takes place in rancidity
no reaction takes place
The light dependent reaction take place in the thylakoid of the chloroplast
It take place in Dark reaction. Dark reaction take place in stroma.
The Williamson ether synthesis is a reaction that converts alcohols (R-OH) into ethers (R-O-R). The first step in this reaction is forming the conjugate base of the alcohol (called an alcoxide) by reacting the alcohol with sodium metal. This reaction forms hydrogen gas (H 2 ) as a biproduct, so if you perform this reaction take caution to keep all flame sources away during sodium addition.  The alcoxide can then be added to a suitable alkyl halide (typically a primary halide) to form the ether via anSN2 mechanism.  Example: An example of the Williamson ether synthesis to make diethyl ether.  However there are certain limitations of Williamson synthesis of ether. In Williamson Synthesis the attack is done by alkoxide ion. Alkoxide ion behaves as the neuoclophile as well as the base. When it behaves as the neuclophile it causes substitution reaction to occur the formation of ether. When it behaves as the base it causes the the elimination reaction to occur. With the formation of alkenes. These two reaction going from primary to secandory to tertiary alkyl halides.possibility of elimination reaction goes on increasing with the formation of more amount of alkene and less amount of ether .
a chemical reaction..
During a chemical reaction the breaking of the older bonds and formation of the new bonds take place.
If thermal energy must be added to a chemical reaction for the reaction to take place the reaction is endothermic.
The amount of energy a reaction needs to take place is called activation energy. When this much energy is present, a chemical reaction can occur.