Many reactions can be classified as condensation reactions because they create a water molecule and bond together two of the reactants’ molecules. These reactions often occur when one reactant is an alcohol and the other reactant contains an active hydrogen atom. What is another name for a condensation reaction ?
A condensation reaction takes place when two different types of water come together to form a lighter fluid. When this fluid is cooled, the lighter liquid returns to its heavier cousin liquid water. This reaction can occur in two unique forms. One is referred to as a latent heat release; the other is known as a dynamic heat release. Each has different applications and understanding the difference between the two will help with your understanding of a condensation reaction.
A condensation reaction takes place when two different types of fluids come together and are cooled. When this occurs, the lighter liquid returns to its heavier cousin liquid water and the heavier one is changed into a gas. Other possible lost gases include hydrogen, methanol, and chlorine.
A condensation reaction can take place at any point along two different types of lines. The first line is called a primary condensation reaction. In this instance, a solution of a molecule is found. While a solution exists, the molecules begin to move and form different shapes and formations. As these new shapes and formations settle to the bottom of the container, they are referred to as a secondary condensation reaction.
A second type of condensation reaction takes place when two amino acids bind to each other and the resulting fluid is called a secondary condensation reaction. In this instance, two different types of amino acids link together and the result is a longer, softer protein. At first glance, this appears to be similar to a foam, but on closer inspection you will see that the molecules move quite randomly within the gel, creating instability and difficulty for the gel to hold.
A third type of condensation reactions take place when one or more different solutes link together through a process called cross-cation. In a dehydration reaction, a small molecule forms a positive charge by bonding with a larger molecule. The larger molecule becomes negative in charge, which causes it to encapsulate the smaller single molecule. Cross-cation occurs most often when the smaller molecule is a metal ion or when the smaller molecule is a non-metal ion such as an oxygen molecule.
A fourth type of condensation reaction takes place when two different solvents react with each other. In this instance, both substances are in aqueous form. One solvent is usually lower in concentration than the other, which results in a higher concentration of aqueous solution at the end of the reaction than at the beginning. At the end of the procedure, the higher concentration of aqueous solution pulls on the lower concentration of alkaline solution, causing the separation of the alkaline from the less pH alkaline solution at the beginning of the procedure. In this instance, both the covalent and polar molecules are contained within the lattice structure of the enolate ion.
A fifth type of condensation reaction takes place when one particular group of chemical compounds bond together. In this instance, the reaction causes the partial substitution of one group of compounds for another one. In cases where the substituted chemical compounds are electrically inert, there will not be any change in the conformation of the molecule. However, the substituted compounds may exhibit a marked change in their electrochemical behavior, particularly in cases where one or more of the substituted compounds have a high degree of electron mobility.
What is another name for a condensation reaction?
Six types of condensation reactions have been described above. They can take place at room temperature, in an environment with low relative humidity (low relative humidity increases vapor compression in many physical systems), in cases where two differently sized or electrically identical chemical compounds need to undergo some kind of chemical reaction (such as the separation of polarize alkaline from dipolar acid), between two different substituted or electrically similar substances, in a system where one of the reactants is highly electrically active (like the reaction between hydroxyl and hydrogen in water), or between a polarizer (precipitation of water) and a nonpolarizer (freezing of water). Each of these six different reactions is described in greater detail below: