The conjugate base of H2PO3- 1 is HPO32- 2. This is because H2PO3- 1 can donate one proton to form a new species with one less hydrogen ion, resulting in the HPO32- 2 ion.
The conjugate acid of ClO- is HClO. The conjugate acid of HClO is ClO2. The conjugate acid of HCI is H2Cl. The conjugate acid of Cl- is HCl. The conjugate acid of ClO is HClO2.
The conjugate acid of NO2- is HNO2 (nitrous acid).
The conjugate acid of H2O is H3O+ (hydronium ion). When an acid donates a proton, it forms its conjugate base, and when a base accepts a proton, it forms its conjugate acid.
The conjugate acid of HCO3- is H2CO3 (carbonic acid). When HCO3- gains a proton, it forms carbonic acid, which is its conjugate acid.
The conjugate base of H2PO3- 1 is HPO32- 2. This is because H2PO3- 1 can donate one proton to form a new species with one less hydrogen ion, resulting in the HPO32- 2 ion.
The conjugate acid of ClO- is HClO. The conjugate acid of HClO is ClO2. The conjugate acid of HCI is H2Cl. The conjugate acid of Cl- is HCl. The conjugate acid of ClO is HClO2.
The conjugate acid of NO2- is HNO2 (nitrous acid).
The conjugate acid of H2O is H3O+ (hydronium ion). When an acid donates a proton, it forms its conjugate base, and when a base accepts a proton, it forms its conjugate acid.
The conjugate acid of HCO3- is H2CO3 (carbonic acid). When HCO3- gains a proton, it forms carbonic acid, which is its conjugate acid.
The conjugate base and conjugate acid for HS04 is: Conjugate acid is H2SO4 Conjugate base is SO42
The conjugate acid of CIO- is HClO. When CIO- gains a proton, it forms HClO as its conjugate acid.
The conjugate acid of the base NH2OH (hydroxlyamine) is NH3OH^+
The conjugate acid of ClO4- is HClO4, perchloric acid.
The conjugate acid of H4N2 is H5N2+ because it gains a proton (H+) to form its conjugate acid.
The conjugate acid of ClO^- is HClO. This is because ClO^- is a base that can accept a proton to form its conjugate acid.
The conjugate acid of LiOH is considered Li+.