Want this question answered?
ADP (Adenosine diphosphate) Technically, ATP breaks into ADP and a molecule of inorganic phosphate.
When ATP gives up one phosphate group, it breaks the bond to release energy, and it then becomes ADP.
ATP can't lose energy......... because it is energy.
Energy forms because of breakage of high-energy bond between adenosine-diphosohate and a third phosphate bound to it. energy value is not significantly known but is said to have value around 7.3kCal(~30.5kJ). Energy formed is mostly chemical rather than physical.
It loses a phosphate and one electron. Apex
energy
It becomes ADP and energy is released
ATP (adinine triphosphate) loses a phosphate group to become ADP (adinine diphosphate). The phosphate group was released is referred to as inorganic phosphate. There is also a release of energy as the high energy phosphate bonds are cleaved.
ADP (Adenosine diphosphate) Technically, ATP breaks into ADP and a molecule of inorganic phosphate.
it loses half its energy and becomes ADP.
Energy in released from ATP when it is dephosporylated (loses a phosphate) and becomes ADP. (Adenosine triphosphate-->adenosine diphosphate)
When ATP gives up one phosphate group, it breaks the bond to release energy, and it then becomes ADP.
penis ;p
ATP can't lose energy......... because it is energy.
2 phosphate groups resulting in the making ADP (2 adenines,5 ribose carbed sugars, and 2 phosphate groups)
Energy forms because of breakage of high-energy bond between adenosine-diphosohate and a third phosphate bound to it. energy value is not significantly known but is said to have value around 7.3kCal(~30.5kJ). Energy formed is mostly chemical rather than physical.
It loses a phosphate and one electron. Apex