yes
No, enzymes can also be involved in breakdown reactions. Enzymes can catalyze both synthesis (anabolic) and breakdown (catabolic) reactions in the body, depending on the specific enzymatic reaction and the needs of the cell or organism.
Anabolic reactions build larger molecules from smaller ones, requiring energy input. These reactions are responsible for processes like protein synthesis, DNA replication, and glycogen formation. Overall, anabolic reactions contribute to growth, repair, and maintenance of the body.
Anabolic. If I've read your equation correctly than this is photosynthesis. Although the overall equation looks simple, this is actually an incredibly complex series of reactions involving a number of proteins and electron carriers. However, I think it is anabolic as you are putting together, carbon dioxide, water, and light to make a significantly more complex sugar and oxygen. You could also explain this in terms of entropy; more complex molecules have less entropy while loose carbon dioxide and water have more.Don't take this as verbatim as I'm no expert on this.
Chemistry is the study of chemical composition and structure of substances, also studying chemical reactions and chemical synthesis, etc.
The Calvin cycle does not require light, these reactions are also called the Light Independent reactions.
No, enzymes can also be involved in breakdown reactions. Enzymes can catalyze both synthesis (anabolic) and breakdown (catabolic) reactions in the body, depending on the specific enzymatic reaction and the needs of the cell or organism.
Anabolic - Term describing enzyme-catalyzed reactions in a cell that involves the synthesis of complex molecules out of simpler subunits and which uses energy.(From Sparknotes)
Anabolic reactions build larger molecules from smaller ones, requiring energy input. These reactions are responsible for processes like protein synthesis, DNA replication, and glycogen formation. Overall, anabolic reactions contribute to growth, repair, and maintenance of the body.
CO(g)+3H2(g)->CH4(g)+H2O(g)
Anabolic reactions build large molecules from smaller and simpler molecules through processes like dehydration synthesis. These reactions require energy input to form bonds and create complex molecules used for growth, repair, and energy storage in organisms.
Enzymes allow many chemical reactions to occur. They catalyze reactions by lowering the activation energy, which is the amount of energy needed to trigger a chemical reaction. Whereas heat can provide energy to trigger reactions, temperatures needed to reach activation energy for most metabolic reactions are often too high to allow cells to survive, so enzymes are in fact needed if metabolism (anabolic or catabolic) is to occur.
DNA synthesis is also known as DNA replication.
The type of reaction that combines reactants to produce larger products is called synthesis. The opposite process of synthesis is decomposition.
Anabolic steroids, also called as anabolic-androgenic steroids, is a drug that reacts similiarly to testosterone in the human body. Under the Controlled Substance Act, anabolic steroids are a Schedule 3 drug.
Synthesis reactions involve combining two or more substances to form a new compound. This process is also known as addition or composition.
Combustion and single-replacement reactions are also redox reactions. In a combustion reaction, a substance combines with oxygen and releases energy. In a single-replacement reaction, one element replaces another in a compound, resulting in a change in oxidation states.
Anabolic. If I've read your equation correctly than this is photosynthesis. Although the overall equation looks simple, this is actually an incredibly complex series of reactions involving a number of proteins and electron carriers. However, I think it is anabolic as you are putting together, carbon dioxide, water, and light to make a significantly more complex sugar and oxygen. You could also explain this in terms of entropy; more complex molecules have less entropy while loose carbon dioxide and water have more.Don't take this as verbatim as I'm no expert on this.