Learning outcomes expected at the level of the course (4 to 10 learning outcomes) |
After course students will be able to :
1. chemical characteristics of the material.
2. physical characteristics of the material: electrical, thermal, optical, magnetic and mechanical properties
3. materials: conductors, semiconductors, metals, ceramics, polymers, composites
4. sampling of different materials
5. preparation of a representative sample for analysis |
Course content broken down in detail by weekly class schedule (syllabus) |
Lecture 1: Introduction. The chemical characteristics of the material
Lecture 2: Chemical bond, the crystal lattice.
Lecture 3: Physical characteristics of the material: electrical, thermal, optical, magnetic and mechanical properties
Seminar 1 (2 hours): Data analysis and presentation of results. Assignments: Tests of acceptance and rejection results
Lecture 4: Physical characteristics of the material: electrical, thermal, optical, magnetic and mechanical properties
Seminar 2 (2 hours): The standard deviation of error. Calculate the mass of the sample
Lab course 1 (2 hours): Familiarization with laboratories, institutes and exercises that will take place.
Lecture 5: Groups of materials: conductors, semiconductors, metals, ceramics, polymers
Seminar 3 (2 hours): Calculation of the composition of various solid materials. Shares, tasks with different problems
Lab course 2 (5 hours): Standardization PO4. Determination of PO4 from seawater in HDPE and PP bottles and glass tubes
Lecture 6: Testing and analysis of real samples
Lecture 7: first partial colloquium
Lab course 3 (5 hours ): Standardization of NO2. Determination of NO2 from seawater in HDPE and PP bottles and glass tubes
Lecture 8: Sampling of gases
Seminar 4 (2 hours ): Assignments from the method of discharge. Assignments: interference-extraction
Lab course 4 (6 hours ): Standardization SiO4. Determination SiO4 from seawater in HDPE and PP bottles and glass tubes
Lecture 9:. Sampling of liquid
Seminar 5 (2 hours): Separation and error calculation. Calculations of components of the various components in an aqueous system,
Lecture 10: Sampling of solid
Seminar 6 (2 hours): Eligible and illicit quantity calculations for solids
Lab course 5 (5 hours ): Standardization of NO3. Determination of NO3 from seawater in HDPE and PP bottles and glass tubes
Lecture 11: Preparation of a representative sample for analysis
Seminar 7 (2 hours): Assignments: gases, calculations composition
Lecture 12: Preparation of a representative sample for analysis
Lecture 13: Decomposition of samples
Lecture 14: Seminar
Lab course 6 (4 hours ): Sandardizacija NH4. Determination of NH4 from seawater in HDPE and PP bottles and glass tubes
Lecture 15: 2th partial colloquium
Seminar 8 (1 hour): Assignments: gases, calculations composition
Lab course 7 (3 hours ): Computer and graphical analysis of the results |
