An exergonic reaction is catabolic. A catabolic reaction is the process of breaking down complex macromolecules into smaller subunits while releasing energy in the process. An exergonic reaction is an energy releasing reaction hence why it is a catabolic reaction.
Catabolic.
Catabolism
When large molecules are broken apart to yield smaller ones through hydrolysis reactions which require water
Anabolism
When small molecules are put together to build larger ones through metabolic condensation reactions (water is released)
Digestion
The processes by which food and its components are broken down chemically and mechanically into units that can be absorbed
its amphibolic meaning its both anabolic and catabolic
Hydrolysis decomposes carbohydrates, lipids and proteins. Hydrolosis is not anabolic, it is catabolic. A catabolic reaction is where the bond between monomers is broken by the enzyme and the addition of water.
catabolic.
Anabolic Reaction
Anabolic, endergonic, non-spontaneous
catabolic and exergonic
it could be anabolic and catabolic
Catabolic: cellulose is broken down to carbon dioxide, water, and carbon monoxide. Exergonic: energy is released which can be used for work. Spontaneous: once the reaction is started, it will go to completion.
The breaking apart the link between ATP and phosphate which produces heat is catabolic, exergonic, and spontaneous. The burning of paper is catabolic, exergonic, and spontaneous.
Catabolic: long cellulose polymers are broken down into carbon dioxide, water, and carbon monoxide gases. Exergonic: can be used to do work Spontaneous: once started the reaction will reach completion by itself, driven by a very positive change in entropy. However the reaction has a high activation energy. Therefore it is thermodynamically favourable but kinetically unfavourable.
In an anabolic reaction Lipase involves a catabolic reaction a digestive hydrolyses fats into glycerol and fatty acids
it is anabolic process
Reaction for respiration is a catabolic process. It is where organic compounds are broken into simpler substances through the transfer of electrons.