D. S. Hage, J. D. Carr - Analytical chemistry and quantitative analytical chemistry, Pearson, 2011
Learning Objectives - Last names A-K
Its main purpose is to introduce the students to the basic concepts of analytical chemistry such as the statistical evaluation of data, gravimetric and titrimetric methods of analysis, acid-base chemistry, complexation chemistry, and redox process.
To provide the students with a solid background in those chemical principles that are particularly important to analytical chemistry, to introduce the students to gravimetric and titrimetric methods of analysis.
To develop skills necessary to solve analytical problems.
Learning Objectives - Last names L-Z
Its main purpose is to introduce the students to the basic concepts of analytical chemistry such as the statistical evaluation of data, gravimetric and titrimetric methods of analysis, acid-base chemistry, complexation chemistry, and redox process.
To provide the students with a solid background in those chemical principles that are particularly important to analytical chemistry, to introduce the students to gravimetric and titrimetric methods of analysis.
To develop skills necessary to solve analytical problems.
Prerequisites - Last names A-K
Courses required: General and Inorganic Chemistry and General and Inorganic Chemistry Lab.
Prerequisites - Last names L-Z
Courses required: General and Inorganic Chemistry and General and Inorganic Chemistry Lab.
Teaching Methods - Last names A-K
Contact hours for lectures (hours): 48.
Lectures in mixed modality remote/presence with recording of lectures and availability of the relative .mp4 files on the e-learning University platform Moodle.
Teaching Methods - Last names L-Z
Contact hours for lectures (hours): 48.
Lectures in mixed modality remote/presence with recording of lectures and availability of the relative .mp4 files on the e-learning University platform Moodle.
Further information - Last names A-K
Didactic materials as pdf doc 90 pp ca. by the teacher on the e-learning platform Moodle of the University.
Resumé of ca. 100 possible exam questions available on the same Moodle platform.
The programme of the course more detailed than that reported in the extended programme present in this Syllabus is available on the same Moodle platform as above described.
Further information - Last names L-Z
Didactic materials as pdf doc 90 pp ca. by the teacher on the e-learning platform Moodle of the University.
Resumé of ca. 100 possible exam questions available on the same Moodle platform.
The programme of the course more detailed than that reported in the extended programme present in this Syllabus is available on the same Moodle platform as above described.
Type of Assessment - Last names A-K
No “in itinere” tests. Traditional final oral test. 8
Exam sessions together with those of April and November.
Oral examination consisting of questions on the developed programme including resolution of numerical exercises.
Type of Assessment - Last names L-Z
No “in itinere” tests. Traditional final oral test. 8
Exam sessions together with those of April and November.
Oral examination consisting of questions on the developed programme including resolution of numerical exercises.
Course program - Last names A-K
Definitions and basic concepts, pH, chemical reactions in solution, solvents in analytical chemistry, acid-base equilibria, complexation equilibria, solubility equilibria. Titration curve for precipitation reactions, titration curves for complex acid-base systems. Oxidation-reduction processes: electrochemical cells, electrode potentials, the standard electrode potential, titration curves. Gran and Henderson-Hasselbach equations. Species fractions. Pourbaix diagrams. Electrochemistry and electrodes. COD determination.
Course program - Last names L-Z
Definitions and basic concepts, pH, chemical reactions in solution, solvents in analytical chemistry, acid-base equilibria, complexation equilibria, solubility equilibria. Titration curve for precipitation reactions, titration curves for complex acid-base systems. Oxidation-reduction processes: electrochemical cells, electrode potentials, the standard electrode potential, titration curves. Gran and Henderson-Hasselbach equations. Species fractions. Pourbaix diagrams. Electrochemistry and electrodes. COD determination.