ATP transfers a Phosphate group to the molecule it is acting on. since molecules can only have a certain amount of bonds due to the arangment of electrons this new bond will alter its ability to form new bonds and may even break an existing bond. A change in molecular shape may accure which can reveal or cover bond sites or if nothing else, alter its function due to its physical shape. one such shape change is how protein channel can transfer a molecule or atom from one side of a cell membrane to the other. your question specificaly refers to a transfer of energy. The transfer of energy is in the form of bonds and the potential to bond. -some dude who may be wrong
the metabolic activities require high rate of energy this high energy comes from small ATP molecules (adenosine tri-phosphate) it is also in froms of AMP, ADP, M=mono ,D=di when a specific reations requires a high rate of energy then the nucleus gives the order to break the ATP packets with the help of catalytic activities (break down activites) with the result a large amount of enery is released.
Energy is transferred for ATP to other molecules by transferring the phosphate group. The ATP is then reduced to ADP, releasing energy in the process.
phosphate group
NAD+ is an electron carrier molecule that helps pass energy from glucose to other pathways in a cell by taking high-energy electrons and holding on to them until they can be transferred to other molecules.
Electrons transfer energy from glucose to other molecules during redox reactions in cells.
Energy flows from one organism to another.One organism eats other organism and energy is transferred.
The organic molecules like glucose C6H12O6 molecule have actually energy stored in human body.The energy is converted into usable form using oxygen that you breathe in.The process is called respiration.
Any substance can absorb any amount of energy, unless it is vaporized or turned to plasma. Heat is thermal energy transferred to the molecules of a substance. Some substances, such as metals, require higher energy to reach a given temperature (specific heat) than do other substances.
Convection
When energy is transferred to air, the molecules in the air become more excited. The energy causes the molecules to move around more than they did before, which could cause an increase in temperature, among other things.
When energy is transferred to air, the molecules in the air become more excited. The energy causes the molecules to move around more than they did before, which could cause an increase in temperature, among other things.
The energy that is transferred when molecules bump into each other is called conduction. Conduction is the transfer of heat energy between substances that are in direct contact with each other.
NAD+ is an electron carrier molecule that helps pass energy from glucose to other pathways in a cell by taking high-energy electrons and holding on to them until they can be transferred to other molecules.
When energy is transferred to air, the molecules in the air become more excited. The energy causes the molecules to move around more than they did before, which could cause an increase in temperature, among other things.
energy is transferred from on animal to the other animal. Because energy can't be destroyed only transferred
Energy is transferred between two molecules in direct contact with each other. For heat energy, this normally occurs during molecular collisions, when the energy in one molecule is imparted to an adjacent molecule (the molecule with less energy gains energy while the one with greater energy will lose energy).
radiation-energy transferred by waves or rays conduction-transfer of energy that occurs when molecules bump into each other (direct contact)
A sound wave is simply a vibration in the air molecules, or the molecules of some other substance. This vibration propagates as a wave, the energy gets transferred somewhere else.
When energy is transferred to air, the molecules in the air become more excited. The energy causes the molecules to move around more than they did before, which could cause an increase in temperature, among other things.
When energy is transferred to air, the molecules in the air become more excited. The energy causes the molecules to move around more than they did before, which could cause an increase in temperature, among other things.