anabolic, endergonic, non spontaneous
Joining two glucose molecules to make maltose is an endergonic reaction because it requires energy input to form a bond between the two molecules.
Endergonic.
The energy for an endergonic reaction can come from an exergonic reaction, where energy is released. This released energy is then used to drive the endergonic reaction forward.
In an endergonic reaction, the overall energy change is positive, requiring input of energy. By breaking down ATP molecules, which release energy, the energy released can drive the endergonic reaction forward. This coupling of the endergonic reaction with the exergonic ATP hydrolysis allows the endergonic reaction to proceed.
When a cell uses chemical energy to perform work, it couples an exergonic (energy-releasing) reaction with an endergonic (energy-requiring) reaction. This coupling allows the cell to harness the energy released from the exergonic reaction to drive the endergonic reaction, enabling the cell to perform work such as transport, mechanical movement, or synthesis of molecules.
Oxidation is an exergonic reaction.
when energy is absorbed it is called an endergonic reaction and when energy is released it is called an exergonic reaction
Exergonic reactions release energy, while endergonic reactions require energy input. Exergonic reactions tend to be spontaneous and release heat, while endergonic reactions are non-spontaneous and absorb heat. Both types of reactions are involved in cellular metabolism and are essential for biological processes.
there is no exogonic reaction: reactions are either endergonic or exergonic. An exergonic reaction is a chemical reaction that releases energy in the form of heat, light, etc. .. An endergonic reaction is the opposite being a reaction requiring the input of energy.
The reaction in a glow stick is exergonic because it releases energy in the form of light. The chemical reaction between the two chemicals in the glow stick results in the emission of light without requiring an external source of energy.
Endergonic takes energy in to make a reaction. Exergonic releases energy when the reaction happens. An example of endergonic would be when plants use photosynthesis. Carbon dioxide and water molecules would be the reactants and when the plant absorbs energy like the sun, the turn it into sugar molecules that are high in energy. An example of an exergonic reaction would be wood burning. Heat and light is released.
Sodium/Potassium pumps is a good paired reaction. As the pumps are used ATP is broken down into ADP and Pi (exergonic) and 3 Sodiums are pumped out while 2 Potassiums are pumped in. (endergonic).
The energy of sunlight is used to power the endergonic reaction of combining NADP+ with H+
Oxidation is an exergonic reaction.
The energy for an endergonic reaction can come from an exergonic reaction, where energy is released. This released energy is then used to drive the endergonic reaction forward.
Energy carriers like ATP can participate in coupled reactions by providing the necessary energy to drive an endergonic reaction (which requires energy input) by being hydrolyzed into ADP and inorganic phosphate, releasing energy in the process. This released energy can then be used to drive an exergonic reaction (which releases energy) by providing the required activation energy for the reaction to occur. In this way, energy carriers facilitate coupling reactions that require an input of energy.
when energy is absorbed it is called an endergonic reaction and when energy is released it is called an exergonic reaction
Dehydration synthesis is an endergonic reaction because it requires energy input to form a new compound by removing water.
used to drive an endergonic reaction