Salicin hydrolysis: C6H11O5-OPhOH + H+/H20 --> C6H11O5-OH + HOPhOH
C4H9Br+NaOH > NaBr + C4H10O
Yes, it can. The equation is H202(aq) + H2O(l) --> HO2-(aq) + H3O+(aq).
There are three protolysis steps:H3PO4 ---> H+ + H2PO4-H2PO4- ---> H+ + HPO42-HPO42- ---> H+ + PO43-
Acidic hydrolysis: hydrolysis in an acid solution (pH under 7) Basic hydrolysis: hydrolysis in a basic solution (pH above 7)
hydrolysis
C6H12O6 ia the equation for carbohydrates
B
C4H9Br+NaOH > NaBr + C4H10O
C55h98o6+3h2o--->c3h8o3+3c16h32o2
C13H18O7
Yes, it can. The equation is H202(aq) + H2O(l) --> HO2-(aq) + H3O+(aq).
CH3-C=O-NH2 +HCl----> CH3-C=O-OH+ NH4Cl
Silver(I) carbide is Ag2C2 and it is not soluble in water, so it is not likely to hydolyze. But if it were to, on a strictly theoretical basis, it would form the weak acid C2H2 and the base AgOH.Ag2C2 + 2H2O ==> 2AgOH + C2H2
There are three protolysis steps:H3PO4 ---> H+ + H2PO4-H2PO4- ---> H+ + HPO42-HPO42- ---> H+ + PO43-
sucrose + water = glucose + fructose is the chemical equation for the hydrolysis of sucrose into glucose and fructose.
Acidic hydrolysis: hydrolysis in an acid solution (pH under 7) Basic hydrolysis: hydrolysis in a basic solution (pH above 7)
Both tannin and salicin can be extracted from Goat Willow bark. Salicin (which is closely related in chemical make-up to aspirin) is an anti-inflammatory agent that is produced from all willow barks.