Addition Reaction: FAQs
What is Addition Reaction?
Addition reaction is a chemical process where two or more molecules combine to form a new larger molecule.
What are Four Types of Addition Reactions?
Four types of addition reactions include:
- Electrophilic Addition Reaction
- Nucleophilic Addition Reaction
- Free Radical Addition Reaction
- Cycloaddition Reaction
What is Difference between Combination Reaction and Addition Reaction?
Combination reactions involve the formation of a single compound from multiple reactants, while addition reactions involve the addition of atoms or groups of atoms to a molecule without the removal of any part of the original molecule.
What causes Addition Reactions?
Addition reactions are caused by unsaturated compounds like alkenes or alkynes, which have double or triple bonds that can easily break and bond with other molecules.
What Factors Affect Rate of Addition Reaction?
Rate of addition reaction depends upon several factors like:
- Nature of Reactants
- Temperature
- Catalysts
- Solvent Effects, etc.
What is Industrial Application of Addition Reaction?
Addition reactions are extensively used in industries like polymerization for making plastics, synthesis of pharmaceuticals, and producing various chemicals.
What Organic Compounds are Involved in Addition Reaction?
Organic compounds like alkenes, alkynes, ketones, and aldehydes are commonly involved in addition reactions, where new bonds form between the reacting molecules.
Addition Reaction
Addition reaction is a chemical process in which two or more molecules combine to form a single molecule. They are typical of unsaturated organic compounds such as alkenes, alkynes, aldehydes, and ketones.
In this article, we will look into what addition reaction is, types of addition reaction, its examples, applications, and the difference between addition and substitution reaction.
Table of Content
- What is Addition Reaction?
- Types of Addition Reactions
- Example of Addition Reaction
- Application of Addition Reaction
- Difference Between Addition and Substitution Reaction