Monomers become chemically bonded to one another when they undergo dehydration synthesis and form dimers, or polymers. During dehydration synthesis, one monomer loses an H atom, and the other loses an OH group, which will form a molecule of water, which is why it is called a dehydration synthesis. A larger molecule will be synthesized with a loss of a water molecule. One example is the dehydration synthesis that occurs between the monosaccharides glucose and fructose, which yields the disaccharide sucrose (table sugar), and a molecule of water. Refer to the related link for an illustration.
They form long chain- like molecules
Dehydration synthesis can occur at room temperature, especially with the right conditions such as the presence of a suitable catalyst or enzyme. The process involves the removal of water to form a new compound, making it possible to happen under normal room temperature conditions.
The general term is "polymerization reactions." The main types of polymerization reactions are condensation reactions (a small molecule is lost at each step) or addition reactions (no molecule is lost at each step). Each of these is then further subdivided into categories depending on the specific chemistry that's involved.
This means that in the process of forming polysaccharides, water molecules are removed as a result of the reaction between monosaccharide molecules. The monosaccharides combine through the removal of a hydroxyl group from one molecule and a hydrogen atom from another, creating a covalent bond between the two molecules to form a larger carbohydrate polymer.
Carbon synthesis
Operation Undergo happened in 1944-10.
Dehydration and hydration of copper sulfate certainly is reversible. This is because the process can happen and be reversed and happen again.
chrorophyll
Synthesis of proteins occurs in the Rough Endoplasmic Reticulum.
inside the nucleus
When ethanoic acid is heated with P2O5, it will undergo dehydration reaction to form acetic anhydride. The P2O5 serves as a dehydrating agent by removing water molecules from the ethanoic acid molecule, resulting in the formation of acetic anhydride.
They will die from dehydration!