All the specific learning outcomes are available on the SCHIB112 WebCampus page. Only the intermediate learning outcomes (i.e. grouping together specific learning outcomes relating to the same theme) will be developed here. On completion of the course, students will be able to :
- quantitatively determine the pH of various solutions, whether or not resulting from a mixture of substances, in aqueous solution ;
- draw and use a titration curve relating to the titration of a strong acid, a weak base, a weak acid, a weak base, an ampholyte and mixtures of substances, in aqueous solution ;
- draw and use a balance diagram of the quantities of different chemical species, relating to the titration of a strong acid, a weak base, a weak acid, a weak base, an ampholyte and mixtures of substances, in aqueous solution ;
- draw and determine the forms (positively charged, zwitterionic, negatively charged) of a given amino acid at different pH values, and use them to solve qualitative and quantitative problems.
- apply the conditions required to optimise the buffering capacity of a buffer.
- apply Ostwald's law to quantitative problems in aqueous solution.
- quantitatively solve stoichiometric problems involving the weighting of redox or acid-base reactions in aqueous solution.
- apply the conditions for carrying out a quantitative acid-base reaction, oxidation-reduction reaction, precipitation reaction or complexation reaction, using a table of data (Ks, Ka, Ki, Kd).
- determine the solubility of an insoluble substance from its Ks
- quantitatively determine the total, temporary and permanent hardness of a mineral water or extract the concentrations of calcium, magnesium and bicarbonate ions from these data.
- describe the structure and explain the mechanism of various batteries
