ATP can't lose energy......... because it is energy.
ADP and phosphate.
adp
When ATP loses a phosphate group, it is converted into ADP (adenosine diphosphate). This conversion releases energy that can be used by cells for various biochemical processes. The remaining molecule, ADP, can then be converted back into ATP through the process of cellular respiration to restore its energy-storing capacity.
About 67& of the energy in glucose is converted to ATP. The rest is lost as heat.
ATP stores energy in its phosphate bond. This energy is released when the bond break and ATP is converted into ADP. This energy is used to perform vital functions in an organism.ATP stores energy in its phosphate bond. This energy is released when the bond break and ATP is converted into ADP. This energy is used to perform vital functions in an organism.
ATP and NADPH
chemical energy
When ATP loses a phosphate group, it is converted into ADP (adenosine diphosphate). This conversion releases energy that can be used by cells for various biochemical processes. The remaining molecule, ADP, can then be converted back into ATP through the process of cellular respiration to restore its energy-storing capacity.
it loses half its energy and becomes ADP.
About 67& of the energy in glucose is converted to ATP. The rest is lost as heat.
ATP stores energy in its phosphate bond. This energy is released when the bond break and ATP is converted into ADP. This energy is used to perform vital functions in an organism.ATP stores energy in its phosphate bond. This energy is released when the bond break and ATP is converted into ADP. This energy is used to perform vital functions in an organism.
energy
Energy in released from ATP when it is dephosporylated (loses a phosphate) and becomes ADP. (Adenosine triphosphate-->adenosine diphosphate)
ATP and NADPH
ATP and NADPH
Energy is released.
cells convert energy stored in ATP into kinetic energy.
cells convert energy stored in ATP into kinetic energy.
cells convert energy stored in ATP into kinetic energy.