Your question seems a little vague. Do you mean "what happens to water when energy is extracted from it?"
Fundamentally, it's a null question -- water is extremely stable. Energy has to be put into water to change its molecular makeup (2H20 -- two oxygen atoms and four hydrogen atoms combine to form one molecule of water). When you put enough energy into a water molecule, it breaks up into hydrogen and oxygen, which can then be re-burned to produce water again.
The dark reaction, also known as the Calvin cycle, is a series of chemical reactions in photosynthesis that do not require light. It takes place in the stroma of the chloroplasts and uses the products of the light-dependent reactions to convert carbon dioxide into glucose. This process helps to store the energy captured from sunlight in the form of chemical bonds in glucose, which can be used by the plant for growth and energy. In summary, the dark reaction is essential for converting light energy into chemical energy that can be used by the plant.
When a chemical reaction takes place, the compound formed is called the product. The product is the end result of the chemical reaction, typically formed from the reactants that underwent a rearrangement of atoms.
Enzymes decrease the activation energy of a chemical reaction. They do this by providing an alternative pathway with a lower activation energy that allows the reaction to proceed more rapidly.
Enzymes function by lowering the activation energy needed for a chemical reaction to occur, which speeds up the reaction. They achieve this by providing an alternative pathway for the reaction to proceed more easily. Enzymes do not get consumed in the reaction and can be used repeatedly.
The energy provided by absorbing light can substitute for the heat energy that usually accelerates chemical reactions. More fundamentally, any endothermic chemical reaction can occur because an increase in entropy compensates for any heat absorbed by the reaction to make the free energy change negative.
Endothermic Reaction
When a chemical reaction takes in more energy than it gives off, it becomes an endothermic reaction. In an endothermic reaction, energy is absorbed from the surroundings in the form of heat.
A chemical reaction that transfers energy from the reactants to the surroundings is referred to as an exothermic reaction. A reaction that takes energy in is endothermic.
Yes.
no
Exothermic reactions
Heat energy is necessary for some chemical reactions to occur. Some chemical reactions are endothermic meaning they require or absorb energy for a chemical reaction to occur. Other chemical reaction are exothermic meaning they release energy when the chemical reaction takes place..
All chemical reactions that release energy in the form of heat are called exothermic reactions.
Activation energy is needed to start a chemical reaction. This energy is used to join the reactants together or break them apart. If a reaction is exothermic then it gives energy out. If it is endo thermic then the reaction takes energy in.
It depends on the reaction. An exothermic reaction releases (liberates) energy and an endothermic reaction absorbs energy.
The Law of Conservation of MASS, ENERGY, and CHARGE
Endothermic reaction is a type of chemical reaction that absorbs energy. Energy is a property of objects.