H3O+is the strongest acid that can exist in aqueous solution. 1)Acids stronger than H3O+react with H2O(amphiprotic substance)to produce hydronium H3O+and their conjugate bases.e.g., HA+H20→A+H3O+ where "HA"is generically a strong acid such as HCIO, HCI,HNO3. H2O can not differentiate strong acids(levelling effect) HCI(aq)+H2O-H3O*(aq)+CF(aq) How to differentiate their acidity?
H3O+ is the strongest acid that can exist in aqueous solution. HCl(aq) + H2O →H3O+ (aq) + Cl- (aq) H2O can not differentiate strong acids (levelling effect) HA + H2O → A- + H3O+ where ―HA‖ is generically a strong acid such as HClO4, HCl,HNO3 . How to differentiate their acidity? 1)Acids stronger than H3O+ react with H2O(amphiprotic substance) to produce hydronium H3O+ and their conjugate bases. e.g
a less basic(弱碱性)solvent(versus water)can differentiate the relative acidic strength of the acids,e.g. HAC,where the strong acids do not ionize completely. Order of the strength of the following acids: HI>HCIO>HCI>HSO>HNO: 2)Acids weaker than H3O+react with H2O to a much smaller extent,producing H3O+and their conjugate bases(differentiating effect).e.g., HF(aq)+H2O=H3O(aq)+F-(aq)
a less basic(弱碱性) solvent (versus water) can differentiate the relative acidic strength of the acids, e.g., HAC, where the strong acids do not ionize completely. HI>HClO4>HCl>H2SO4>HNO3 2)Acids weaker than H3O+ react with H2O to a much smaller extent, producing H3O+ and their conjugate bases (differentiating effect). e.g., HF(aq) + H2O → H3O+ (aq) + F- (aq) Order of the strength of the following acids:
OH is the strongest base that can exist in aqueous solution 1)Bases like O2-H,NH2,CH3,which are stronger than OH,react with H2O to produce OH-and their conjugate acids (levelling effect).e.g., O2-(aq)+H2O-OH-(aq)+OH-(aq) H,O can not differentiate strong bases. How to differentiate the strength of bases? A solvent(弱酸性)whose strength of acid is a weaker than that of H2O can do it (differentiating effect),e.g.,NH3
