NAME OF THE COURSE |
Safety at work |
Code |
|
Course teacher |
Prof Pero Dabić |
Credits (ECTS) |
4.0 |
|
Associate teachers |
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Type of instruction (number of hours) |
|
|
Status of the course |
Mandatory |
Percentage of application of e-learning |
0 % |
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COURSE DESCRIPTION |
Course objectives |
- Knowledge of the potential hazards when working in a laboratory and plant. - The basics of working in a safe manner, safeguards and protective devices and agents at work |
Course enrolment requirements and entry competences required for the course |
None |
Learning outcomes expected at the level of the course (4 to 10 learning outcomes) |
After passing the exam the student is expected to know: - Rules of conduct and work in the chemistry lab - Basic hazards in a chemistry lab - Ways of marking substance, meaning chemical Card (data on physico-chemical, physiological and toxicological properties of the substance) - Assessment of the potential dangers of certain chemicals and working with the apparatuses and methods of protection at work |
Course content broken down in detail by weekly class schedule (syllabus) |
1st week: an introductory lecture, legislation, codes of conduct in the laboratory 2nd week: the security apparatus in the chemistry lab 3rd week: safety and physico- chemical properties of the substance 4th week: Classification of substances with similar properties and functional groups 5th week: labeling - labels , graphic symbols , diamond hazard label when transporting 6th week: effect of pollutants on human health - basic concepts of toxicology and physiological properties of the substance, MAC, LD50 7th week: effect of pollutants on human health - division and features matter to the physiological properties 8th week: assessment (first colloquium); 9th week: burning processes and fire danger 10th week: appliances and equipment for fire fighting 11th week: Model Fire Extinguishers 12th week: types of harmful atmosphere and breathing apparatus 13th week: protection of electricity 14th week: dangerous products - the formation, classification according to UN figures, storage, recycling and waste 15th week: assessment (2nd colloquium). Laboratory exercises: Exercise 1. Stability of the alkali metal Exercise 2. Material flammability test Exercise 3. Determination of ignition point by Marcusson Exercise 4. Determination of physico - chemical properties of the solution with the aim of assessing the potential hazards |
Format of instruction: |
|
Student responsibilities |
Attending lectures in the amount of 80 %, and laboratory exercises in the amount of 100 % of the total number of lessons. |
Screening student work (name the proportion of ECTS credits for eachactivity so that the total number of ECTS credits is equal to the ECTS value of the course): |
Class attendance |
1.0 |
Research |
0.0 |
Practical training |
0.8 |
Experimental work |
1.0 |
Report |
0.0 |
|
0.2 |
Essay |
0.0 |
Seminar essay |
0.0 |
|
|
Tests |
0.0 |
Oral exam |
0.0 |
|
|
Written exam |
1.0 |
Project |
0.0 |
|
|
|
Grading and evaluating student work in class and at the final exam |
Continuous evaluation: The entire test can be applied over two exams during the semester. Passing threshold is 60 %. Each colloquium in assessing participates with 35 %. Laboratory exercises participate in the evaluation of 20 %. The presence of lectures in 80-100 % amount is 10 % of the grade. Final evaluation: Students who have passed the preliminary one, it is recognized as part of the exam and a 35 % score. The remaining part is laid in the regular examination period. Students who have not passed any preliminary examination, written examination in the regular examination period laid the whole subject matter. Passing threshold is 60 %, and a written examination form to participate in the evaluation by 80 %. Laboratory work involved in assessing the proportion of 20 %. Rating: sufficient (60-70 %), good (71-80 %), very good (81-90 %), excellent (91-100 %). |
Required literature (available in the library and via other media) |
Title |
Number of copies in the library |
Availability via other media |
P. Dabić, Sigurnost pri radu, Autorizirana predavanja, 2013. |
1 |
Web stranice KTF-a |
R. H. Hill, D.C. Finster, Laboratory Safety for Chemistry Students, John Wiley & Sons, Hoboken, New Jersey, 2010. |
1 |
|
P. Dabić, Vježbe iz kolegija sigurnost pri radu, KTF, Split, 2010. |
1 |
Web stranice KTF-a |
|
Optional literature (at the time of submission of study programme proposal) |
B. Uhlik, Zaštita od požarno opasnih, toksičnih i reaktivnih tvari (I-III), Hrvatsko društvo kemijskih inženjera, Zagreb, 1998., 2000., 2003. i 2013. Zakon o zaštiti na radu, Zavod za istraživanje i razvoj sigurnosti, Zagreb, 2010.
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Quality assurance methods that ensure the acquisition of exit competences |
- monitoring of students suggestions and reactions during semester - students evaluation organized by University |
Other (as the proposer wishes to add) |
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