ANALYTICAL CHEMISTRY AND LABORATORY - MOD.1
- Academic year
- 2022/2023 Syllabus of previous years
- Official course title
- CHIMICA ANALITICA E LABORATORIO - MOD.1
- Course code
- CT0334 (AF:355322 AR:188242)
- Modality
- On campus classes
- ECTS credits
- 6 out of 12 of ANALYTICAL CHEMISTRY AND LABORATORY
- Degree level
- Bachelor's Degree Programme
- Educational sector code
- CHIM/01
- Period
- 1st Semester
- Course year
- 2
- Moodle
- Go to Moodle page
Contribution of the course to the overall degree programme goals
Expected learning outcomes
Knowledge of the chemical equilibria in aqueous solutions. Knowledge of the principles of the main analytical volumetric and gravimentric methods in analytical chemistry. Knowledge of the analytical chemistry methods used for data treatment
Ability to apply knowledge and comprehension:
Evaluate the validity of analytical measurements. Individuate the suitable analytical methods to face a specific analytical problem. Properly present the results obtained from chemical analyses
Pre-requirements
Contents
Detailed programme
Lecture 1. Introduction to the course. The equilibrium constant.
Lecture 2. The effect of the eletrolytes on the equilibrium constant. The Debye-Huckel equation. Strong acid (base)
Lecture 3. Monoprotic weak acid (base) equilibria. Methods of solving. Composition curves.
Lecture 4. Buffer solutions. Buffer capacity. Properties of the buffer solutions
Lecture 5. Neutralization titrations. Acid (base) titrations with strong base (acid). Indicators and pH measurements. (the topic of this lecture are preparatory to one laboratory experience).
Lecture 6. Conductometric titrations (the topic of this lecture are preparatory to one laboratory expe-rience).
Lecture 7. Neutralization titrations. Monoprotic weak acid (base) with strong base (acid). The Gran method. (the topic of this lecture are preparatory to one laboratory experience)
Lecture 8. Diprotic equilibria. Diprotic acids. Amphiprotic systems (NaHA). Diprotic buffer solutions.
Lecture 9. Composition curves of diprotic systems. Triprotic acid (base) equilibria. Triprotic buffer so-lutions.
Lecture 10. Neutralization titration of diprotic systems. Diprotic acid with strong base. Titration of carbonates. (the topic of this lecture are preparatory to one laboratory experience)
Lecture 11. Precipitation reactions and equilibria.
Lecture 12. Precipitation reactions and equilibria. Simultaneous equilibria (acid-base and precipita-tion)
Lecture 13. Precipitation titration. Mohr’s method. Vohlard’s method. Fajans’ method. (the topic of this lecture are preparatory to one laboratory experience)
Lecture 14. Complexation equilibria. Chelating agents. EDTA. Simultanoeus equilibria: acid/base-precipitation-complexation.
Lecture 15. Complexometric titrations. Titration of Ca and Mg with EDTA. (the topic of this lecture are preparatory to one laboratory experience)
Lecture 16. Redox equilibria. The Nernst equation
Lecture 17. Redox equilibria. Simultanoues equilibria : acid/base-precipitation-complexation-redox
Lecture 18. Redox titration: Ceriometric titrations
Lecture 19. Redox titration: Iodometric titrations
Lecture 20. Redox titration: The Winkler’s method . (the topic of this lecture are preparatory to one laboratory experience)
Lecture 21. Statistical methods applied to analytical chemistry. The Normal distribution. Confidence interval. t-Student distribution.
Lecture 22. Statistical hypothesis testing. Accuracy and trueness.
Lecture 23. Normality test. t-Student tests.
Lecture 24. Variance testing. Fisher’s test and Cochran’s test. Precision. The Horwitz equation. Chi-squared test.
Lecture 25. One way analysis of variance (ANOVA)
Lecture 26. Outliers’ test. Dixon Q-test. Grubbs’ test.
Lecture 27. Introduction to Chmiometry. Introduction to the principal component analysis (PCA)
Lecture 28. Introduction to the hierarchical cluster analysis (HCA)
Lecture 29. Classroom exercise
Lecture 30. Classroom exercise
Referral texts
The use of the following books is warmly suggested. The book are available at the Campus library.
D.A. Skoog, D.M. West, F.J. Holler e S.R. Crouch Fondameni di Chimica Analitica, Edises.
V. Di Marco, P. Pastore, G.G. Bombi, Chimica analitica. Trattazione algebrica e grafica degli equili-bri chimici in soluzione acquosa, Edises
E. Desimoni, B. Brunetti, L' elaborazione dei dati nel laboratorio di analisi chimiche, CLUEB
Assessment methods
The written exam consists in 6 exercises that must be solved in no longer than 3 hours. Two exercises for each macro section discussed in class (equilibria, titration and data analysis) will be assigned. The written exam will be passed with an evaluation not lower than 18/30 and allows the access to the oral exam. During the written exam it is allowed the use of a calculator. The use of the smartphone is not allowed. Paper material (first and second drafts) will be provided by the teacher.
During the oral exam it will be ascertained the comprehension of the theoretical and applicative as-pects of the topics discussed in class through an interview.
The final mark will account of the three tests (laboratory, written and oral). However, the final mark does not necessarily corresponds to the arithmetic average of the three partial marks.
Teaching methods
Teaching language
Further information
Accommodation and support services for students with disabilities and students with specific learning impairments: Ca’ Foscari abides by Italian Law (Law 17/1999; Law 170/2010) regarding support services and accommodation available to students with disabilities. This includes students with mobili-ty, visual, hearing and other disabilities (Law 17/1999), and specific learning impairments (Law 170/2010). In the case of disability or impairment that requires accommodations (i.e., alternate testing, readers, note takers or interpreters) please contact the Disability and Accessibility Offices in Student Services: disabilita@unive.it .