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ATP stands for "adenosine triphosphate". Tri=3, so 3 phosphates.
ATP is a molecule that provides energy to cells, while mitochondria are organelles in cells that produce ATP through cellular respiration. So, they are both involved in energy production in cells, with mitochondria being the site where much of the ATP is generated.
ADP has two phosphate groups while ATP has three. When one phosphate breaks off of the three it the remaining two become ADP.
Two terminal phosphates of ATP possess high energy bond also called squigle bonds which readily break to give energy .
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ATP = Adenosine Tri Phosphate , which means 3 Phosphates.
ATP stands for "adenosine triphosphate". Tri=3, so 3 phosphates.
The ATP stores energy in an organism. When it changes from ATP to ADP it is only the effect of how many phosphates there are in the two. When the organism is using ATP it uses a phosphate which then changes to ADP after it takes a one of the three phosphates to make it into two.
yes ADP + iP ----- ATP
The biggest difference between ATP and ADP is that ADP contains 2 phosphates. ATP contains 3 phosphates. ADP means adenine di-phosphate and ATP means adenine tri-phosphate.
yes
Adenosine plus 3 phosphates, called adenosine triphosphate, or ATP.
Between the first and second phosphates and between the second and third phosphates
ATP (adenosine triphosphate) has three phosphate groups attached, serving as the cell's primary energy carrier. When one phosphate group is cleaved off, ATP becomes ADP (adenosine diphosphate), releasing energy that cells can utilize for various functions. ADP can be converted back into ATP through cellular respiration processes.
A high-energy phosphoanhydride bond joins the phosphates of ATP. This bond stores a large amount of energy that can be released when broken through hydrolysis.
ATP is a molecule that provides energy to cells, while mitochondria are organelles in cells that produce ATP through cellular respiration. So, they are both involved in energy production in cells, with mitochondria being the site where much of the ATP is generated.