The Answer is:
the Energy from cellular respiration is used to convert ADP back to ATP.
Conduction is the heat transfer process that occurs when heat flows from one molecule to another within a material. This happens through direct contact between the molecules, leading to a transfer of thermal energy.
In ATP molecule Adenine is attached to Ribose sugar to which three phosphate molecules are attached. They are high 'energy' bonds formed during biological oxidation of glucose molecule. From ADP you get the ATP molecule. When body needs energy, this ATP is turned into ADP and 'energy' is released. Which is used for various metabolic processes. ADP can turn into AMP in emergency.
1 molecule of glucose (6c) -------> glucose -6-phosphate ---->fructose-6-phosphate----->fructose1-6-diphosphate------->2PGAL molecules (3c each ) -------> 2 pyruvic acid molecules ( 3c each ) ------> krebs cycle
When the phosphate ion (PO4^3-) reacts with water, it generally does not undergo a significant chemical reaction. Instead, it can interact with water to form a hydrated species, where water molecules surround and stabilize the phosphate ion in solution. This process helps in the dissolution of phosphate salts in water, making phosphate ions available for biological and chemical processes. In biological systems, phosphate is essential for energy transfer and is a key component of nucleotides and nucleic acids.
When ATP gives up one phosphate group, it is converted into ADP (adenosine diphosphate) and releases energy that can be used for cellular processes. This process is known as hydrolysis, where the bond between the last phosphate group and the rest of the ATP molecule is broken to release energy.
A phosphate group is added to turn it into ATP
it becomes ADP. ATP is adenosine triphosphate, while ADP is adenosine diphosphate.
Conduction is the heat transfer process that occurs when heat flows from one molecule to another within a material. This happens through direct contact between the molecules, leading to a transfer of thermal energy.
Light reaction is not produced by chlorophyll .
In ATP molecule Adenine is attached to Ribose sugar to which three phosphate molecules are attached. They are high 'energy' bonds formed during biological oxidation of glucose molecule. From ADP you get the ATP molecule. When body needs energy, this ATP is turned into ADP and 'energy' is released. Which is used for various metabolic processes. ADP can turn into AMP in emergency.
Most are taken up by mitochondria and reprocessed into ATP.
ATP is adenosine triphosphate which is energy unit for the body it store energy in phosphate bonds to use in time the bond breaks one phosphate released giving ADP adenosine diphosphate and energy
When zinc reacts with phosphoric acid, zinc phosphate and hydrogen gas are produced. The reaction is typically exothermic, releasing energy in the form of heat. Zinc phosphate is a white solid that precipitates out of solution.
When a phosphate group is removed from an ATP molecule, it releases energy that can be used by cells for various cellular processes. This process converts ATP into ADP (adenosine diphosphate), reducing the ATP molecule to a lower energy state.
1 molecule of glucose (6c) -------> glucose -6-phosphate ---->fructose-6-phosphate----->fructose1-6-diphosphate------->2PGAL molecules (3c each ) -------> 2 pyruvic acid molecules ( 3c each ) ------> krebs cycle
One turn produces 1 ATP. So 2 molecules of ATP are produced for every molecule of glucose (because it happens twice for every glucose molecule)
ATP or adenosine triphosphate. When ADP, adenosine diphosphate, gets a third phosphate group, it becomes ATP. ATP is the energy source of many reactions in the cell. When a reaction needs energy to occur, the enzyme that catalyzes the reaction also cleaves a molecule of ATP into ADP and phosphate. The energy of the phosphate bond is used to fuel the endothermic reaction. The ATP is regenerated (phosphorylation of ADP) in the glycolysis or another process that generates energy.