This seems more like a biochemistry question but, AMP stands for Adenosine monophosphate. So, there is one phosphate in AMP.
Amp is a mono-phosphate so it would only have one
AMP is adenosine monophosphate, so there is one phosphate group in the compound.
Fertilisers
No.
Adenosine plus 3 phosphates, called adenosine triphosphate, or ATP.
Amp is a mono-phosphate so it would only have one
AMP is adenosine monophosphate, so there is one phosphate group in the compound.
ATP, or adinosine triphosphate, is simply an adenine, a sugar (ribose), and three phosphates. ADP is has two phosphates, and AMP has one phosphate. Each phosphate added creates more energy in the molecule, making it unstable. It is the phosphates coming apart from the molecule that is releasing the energy.
ATP = Adenosine Tri Phosphate , which means 3 Phosphates.
2345678910
The are calcium and sodium phosphates.
Yes, some fertilizers have phosphates in them.
ATP stands for "adenosine triphosphate". Tri=3, so 3 phosphates.
Most phosphates are soluble. There are some such as AlPO4 which are not.
ATP is a molecule with three phosphate groups attached to a DNA base (A). the third and second phosphate are often removed in chemical reactions and the energy released from breaking these bonds is carefully channelled to catalyse other chemical reactions in the cell. ATP is also kept away from equilibrium of its chemical reaction, meaning in the cells there are many more molecules of ATP products made when phosphates are removed to give ADP or AMP: ATP <-----> ADP + Phosphate ATP <-----> AMP + Di phosphate (2 phosphates) By the cell maintaining ATP at high concentrations and ADP and AMP at low concentrations the energy released from breaking ATP down to ADP or AMP is much larger than if there were equal amounts of ATP, ADP and AMP. This is why ATP is said to contain energy, like pushing a Bowling ball to the top of a hill and then letting it roll down ATP releases energy when it is turned into its products.
No, phosphates are acidic, they for phosphoric acid with is a fairly reactive acid.
Simply because phosphates are harmful to the environment. Due to advances in science, and experimentation, there are safer alternatives to using phosphates.