carboxyl, amino, phosphate
-NH2
amino group
NAD can accept 2 protons from NADH, forming the reduced state: NADH2
In the nucleus you find protons and neutrons.
A Bronsted-Lowry base is a proton acceptor.
I would assume so as the nitrogen could accept more hydrogen, protons, into it's structure. Such as NH3, ammonia, a weak base as it can accept a proton in solution.
Are cations that cannot donate or accept protons and so they are neither acids or bases (e.g. Na+, K+, Ca++, Mg++) .
Amino
A weak base that can accept protons in solution.
it is like machine that accept input orocess and it gives out ouput.
Because ammonia will, weakly, accept protons in solution.
Simply put, an acid donates protons ( H + ) to solutions and bases accept protons in solutions.
NAD can accept 2 protons from NADH, forming the reduced state: NADH2
When the number of protons changes, the elements changes. This could result in change in colour as a different mouth is formed.
Able to accept protons (H+)neutralise acidgiving higher pH values
Simply; acids donate protons and bases accept protons.
In the nucleus you find protons and neutrons.
A Bronsted-Lowry base is a proton acceptor.
A Bronsted-Lowry law doesn't exist; simply, the theory says that acids can donate hydrogen ions (protons) and bases accept hydrogen ions (protons).