Phosphorus is highly reactive; pure phosphorus glows in the dark and may spontaneously combust. Phosphorus is thus also well-suited to its role in adenosine triphosphate, ATP, your body’s chief method of storing chemical energy.
Actually, the above isn’t true. Reactivity is a property of a molecule, not of an element. Elemental phosphorus is prone to get oxidised with atmospheric oxygen, producing lots of energy. ATP is reactive, because anhydride bonds are fairly unstable—but none change of oxidation takes place. That it contains phosphorus, isn’t the actual reason for ATP to be an easy usable form of stroring energy. Salts of phosphoric acid also contain phosphorus, while being fairly unreactive.
Thus the implication just doesn’t make sense.
Little correction:
Phosphorus is highly reactive; pure phosphorus glows in the dark and may spontaneously combust. Phosphorus is thus also well-suited to its role in adenosine triphosphate, ATP, your body’s chief method of storing chemical energy.
Actually, the above isn’t true. Reactivity is a property of a molecule, not of an element. Elemental phosphorus is prone to get oxidised with atmospheric oxygen, producing lots of energy. ATP is reactive, because anhydride bonds are fairly unstable—but none change of oxidation takes place. That it contains phosphorus, isn’t the actual reason for ATP to be an easy usable form of stroring energy. Salts of phosphoric acid also contain phosphorus, while being fairly unreactive. Thus the implication just doesn’t make sense.