Inorganic chemistry with elements of inorganic synthesis - laboratory 1200-1ENCNSNL1
The course consists of two parts.
Part 1 - properties of inorganic ions in aqueous solutions.
1. Introductory experiments - concerning different kinds of reactions and ionic equilibria (acid / base, dissolution, complex formation, oxidation / reduction).
2. Reactions and identification of metal cations of s block.
3. Reactions and identification of metal cations of d and p blocks.
4. Reactions and identification of anions.
5. Reactions and identification of salts.
Part 2 - inorganic synthesis and selected kinds of inorganic reactions.
1. Practical synthesis.
2. Complexes (supplement): spectroscopic properties of complexes, complexometric titration.
3. Oxidation / reduction reactions, elements of electrochemistry.
4. Synthesis and properties of inorganic nanoparticles.
Type of course
Mode
Learning outcomes
The student:
-considers relations between physical and chemical properties of elements and chemical compounds, and chemical composition and structure of the compound, position of the element in the periodic table; considers relation between results of chemical tests and sample composition for selected inorganic substances;
- recognizes kinds of chemical reactions, groups of elements and chemical compounds, basing on observed properties, anticipates properties of inorganic substances, recognizes kinds of basic laboratory techniques and has practical knowledge concerning these techniques;
- uses the practical knowledge in other laboratory courses and courses related to chemistry.
Assessment criteria
The final mark is determined by:
- number of points of two written tests (max. 50 p pro test), students who obtained below 25 p, should write additional test (the mark is a mean from two tests);
- number of points from 9 short written tests, optionally as on line tests (max. 4 p pro test);
- number of points obtained for results of 4 identifications (max. 4 p pro identification);
- number of points obtained for 4 written reports from the part 2 (max. 2 p pro report).
Marks:
146 - 160 points: 5
131 - 145 points: 4.5
111 - 130 points: 4
91 - 110 points: 3.5
below 91 points (if positive marks for all tests and experiments): 3
The course is obligatory, all tasks should be completed within the course time.
Practical placement
None
Bibliography
1. A. Michalska, K. Maksymiuk, Skrypt – materiały pomocnicze do zajęć laboratoryjnych, rozprowadzane na początku ćwiczeń laboratoryjnych.
2. A. Bielański, „Podstawy chemii nieorganicznej”, Wyd. Nauk. PWN Warszawa 2002.
3. L. Jones, P. Atkins, „Chemia ogólna”, Wyd. Nauk. PWN Warszawa 2004.
4. J.D. Lee, „Zwięzła chemia nieorganiczna”, PWN Warszawa 1994.
5. F.A. Cotton, G. Wilkinson, P.L. Gaus, „Chemia nieorganiczna”, Wyd. Nauk. PWN, Warszawa 1995
5. P.W. Atkins, „Podstawy chemii fizycznej”, Wyd. Nauk. PWN Warszawa1999.
6. „Nanotechnologie” pod red. R.W. Kelsall, I.W. Hamley, M. Geoghegan, Wyd. Nauk. PWN Warszawa 2008
7. N.N. Greenwood, A. Earnshaw, „Chemistry of the Elements”, Pergamon Press, 1984.
8. G.A. Ozin, A.C. Arsenault, „Nanochemistry. A Chemical Approach to Nanomaterials”, RSC 2005.
9. Z. Galus (red.), “Ćwiczenia rachunkowe z chemii analitycznej”, Wyd. Nauk. PWN, Warszawa 1996.
10. J. Minczewski, Z. Marczenko, "Chemia analityczna: 1. Podstawy teoretyczne i analiza jakościowa. 2. Chemiczne metody analizy ilościowej", Wyd. Nauk. PWN, Warszawa 1998.
Additional information
Information on level of this course, year of study and semester when the course unit is delivered, types and amount of class hours - can be found in course structure diagrams of apropriate study programmes. This course is related to the following study programmes:
- Nuclear Power Engineering and Nuclear Chemistry, full time 3 year programme leading to B. Sc. Degree
- Nanostructure Engineering, first cycle programme
Additional information (registration calendar, class conductors, localization and schedules of classes), might be available in the USOSweb system: