The conjugate base of NH4+ is NH3 (ammonia). A conjugate base is formed by the removal of a proton (H+) from the parent acid or cation.
The conjugate base of H3BO3 is B(OH)4-.
The conjugate base for HSO4- is SO4^2-.
The conjugate base of SO2-4 is HSO3-.
The conjugate base of HPO2-4 is PO3-4. This is obtained by removing a proton (H+) from the acid (HPO2-4) to form its corresponding base (PO3-4).
The conjugate base of H2AsO4- is HAsO42-. It is formed by removing one proton (H+) from the acid H2AsO4-.
The conjugate base for HSO4- is SO4^2-.
The conjugate base of H3BO3 is B(OH)4-.
The conjugate base of SO2-4 is HSO3-.
PO43- (phosphate) is the conjugate base of HPO42- (monohydrogen phosphate)
During an equilibrium in the following reaction.NH(3) + H(2)O NH(4)(+) + OH(-)NH(4) has the ability to give an H+ ion to OH ion and hence is the conjugate acid.
The conjugate base of HPO2-4 is PO3-4. This is obtained by removing a proton (H+) from the acid (HPO2-4) to form its corresponding base (PO3-4).
The conjugate base of H2AsO4- is HAsO42-. It is formed by removing one proton (H+) from the acid H2AsO4-.
x plus the square root of 2
32 base 4
To get the complex conjugate, change the sign in front of the imaginary part. Thus, the complex conjugate of -4 + 5i is -4 - 5i.
It is 1012 in base 4 or 70 in decimal.
When you make ammonia solution, following equilibrium is established-NH(3) + H(2)O NH(4)(+) + OH(-).The NH(4)+ ion can give H+ ion and hence will act as an acid.