No
An ATP molecule has an extra phosphate group compared to an ADP molecule. This is because ATP has 3 phosphate groups as where ADP only has two phosphate groups.
32 - 34 molecules of ATP
NADP+, ADP, and glucose
Energy in the body is formed when ATP is broken down into ADP. This reaction is therefore exothermic. Thus, the reverse reaction is going to be endothermic because energy is required in order to attach the phosphate to the ADP.
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.
During cellular respiration energy is stored in ATP molecules. When ATP is converted in to ADP, this energy is released for cells to use. The conversion of ADP in to ATP requires molecules of hexose sugar to break down.
An ATP molecule has an extra phosphate group compared to an ADP molecule. This is because ATP has 3 phosphate groups as where ADP only has two phosphate groups.
the breakdown of food molecules
ADP stands doe adenosine diphosphate have 2 phosphate molecules. the prefix "di" gives a clear clue of what it is. It's former form ATP adenosine triphosphate have 3 phosphate molecules.
Creatine Phosphate
32 - 34 molecules of ATP
Yes. It is a good example of energy transformation or conversion. In this energy stored in glucose molecule is released in small pockets. And stored in 38 ATP molecules. Here ADP molecule get converted into ATP molecule. When energy is required, ATP molecule is reconverted into ADP molecule.
NADP+, ADP, and glucose
Energy in the body is formed when ATP is broken down into ADP. This reaction is therefore exothermic. Thus, the reverse reaction is going to be endothermic because energy is required in order to attach the phosphate to the ADP.
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.
how is a molecule of ADP like a rechargeable battery
Phosphorylation