Chemistry

Fakulteta za industrijski inženiring
Novo mesto
Predmet:
Course title:
Faculty for Industrial Engineering
Novo mesto
UČNI NAČRT PREDMETA / COURSE SYLLABUS
KEMIJA
CHEMISTRY
Študijski program
Study programme and level
Letnik
Academic
year
prvi
first
Študijska smer
Study field
INŢENIRING IN VOZILA
ENGINEERING AND
VEHICLES
-
Vrsta predmeta / Course type
Obvezni / Obligatory
Univerzitetna koda predmeta / University course code:
VS - 3
Predavanja
Lectures
Seminar
Seminar
Sem. vaje
Tutorial
45
-
5
Nosilec predmeta / Lecturer:
Jeziki /
Languages:
Lab. vaje
Laboratory
work
25
Teren. vaje
Field work
-
Samost. delo
Individ.
work
75
Semester
Semester
prvi
first
ECTS
5
Red. prof. dr. Miha JAPELJ/Prof. Miha JAPELJ, Dr.
Sci.
Izr. Prof. dr. Darja RUDAN TASIČ/Assoc. Prof. Darja
RUDAN TASIČ, Dr. Sci.
Predavanja / slovenski
Lectures: slovenian
Vaje / Tutorial: slovenski
slovenian
Pogoji za vključitev v delo oz. za opravljanje
študijskih obveznosti:
pogoj za vključitev v delo je vpis v prvi letnik
študija
znanje vsaj enega tujega jezika (angleščina!)
opravljen kolokvij iz vaj je pogoj za pristop h
končnemu izpitu
Prerequisits:
enrolment in the first year of studies
knowledge of at least one foreign language (English!)
passed colloquium from lab work is needed to enter
the final exam
Vsebina:
Predavanja:
Osnovni kemijski
pojmi in
stehiometrija. Struktura molekul in kemijska vez.
Energijske spremembe v kemijskih sistemih.
Raztopine. Kisline, baze, soli. Kemijske reakcije
(nevtralizacija, hidroliza, redoks reakcije) in
1
Content (Syllabus outline):
Lectures: Basic chemical terminology and stoichiometry.
Structure of molecules and chemical bonds. Energy
changes in chemical systems. Solutions. Acids, bases,
salts. Chemical reactions (neutralization, hydrolysis,
redox reactions) and their practical use. Electrochemistry.
Fakulteta za industrijski inženiring
Novo mesto
praktična uporaba. Elektrokemija. Korozija.
Baterije, akumulatorji, gorivni členi. Osnove
kemijske kinetike. Aplikacije v industriji. Kovine,
pregled lastnosti in uporabe nekaterih.
Organska kemija in organska kemijska tehnologija.
Zgradba organskih spojin. Ogljikovodiki, alkoholi,
aldehidi, ketoni, kisline, etri, estri, organske
dušikove spojine, heterociklične spojine. Pomen
kemijskih tehnologij in njih sodobni razvoj. Premog,
nafta, kreking, reforming, motorna goriva. Zelena
kemija in tehnologija, biogoriva, okolje. Polimeri.
Pesticidi. Kemija in zdravila.
Vaje: Priprava raztopin. Merjenje gostote tekočih
goriv. Določanje koncentracije kislin oz. baz,
merjenje vrednosti pH. Priprava galvanskih členov,
merjenje potenciala. Merjenje električne prevodnosti
raztopin elektrolitov. Določanje specifične toplote
kovin. Določanje trdote vode. Destilacija tekoče
zmesi. Kemijska karakterizacija biodizla. Sinteza
acetilsalicilne kisline.
Faculty for Industrial Engineering
Novo mesto
Corrosion. Batteries, accumulators, fuel cells.
Fundamentals of chemical kinetics. Applications in
industry. Metals, review of properties and employability
of some of them.
Organic chemistry and organic chemical technology.
Structure of organic compounds. Carbohydrates,
alcohols, aldehydes, ketones, ethers, esters, nitrogen
organic compounds, heterocyclic compounds. The
importance of chemical technologies and their recent
development. Coal, crude oil, cracking, reforming, motor
fuels. Green chemistry and technology, biofueles,
environment. Polymers. Pesticides, Chemistry and drugs.
Laboratory
practice:
Solutions
preparation.
Measurement of fuel density. Determination of
concentration of acids and bases, pH measurements.
Preparing of galvanic cells, measurement of electric
potential. Conductivity measurements of electrolyte
solutions. Determination of specific heat of metals.
Measurement of water hardness. Distillation of liquid
mixture. Chemical characterization of bio diesel.
Synthesis of acetylsalicylic acid.
Temeljni literatura in viri / Readings:
Obvezna/Obligatory
Atkins, P. W., Clugston, M. J., Frazer, mM. J., Jones, R. A. Y., 1995. KEMIJA-zakonitosti in uporaba.
Tehniška zaloţba Slovenije. Ljubljana, 543 s.
Tišler M. 1982. ORGANSKA KEMIJA, DZS. Ljubljana, 483 s.
Rudan Tasič D., Klofutar C. 2011(V pripravi). VAJE IZ KEMIJE. Fakulteta za industrijski inţeniring. Novo
mesto.
Priporočljiva/Recommended
Čeh, B. 2005. SPLOŠNA IN ANORGANSKA KEMIJA-zbirka pojmov, vprašanj in nalog z odgovori.
Univerza v Ljubljani, Fakulteta za kemijo in kemijsko tehnologijo. Ljubljana, 240 s.
Austin, George T. 1985. SHREVE'S CHEMICAL PROSESS INDUSTRIES, INTERNATIONAL
STUDENTS EDITION, McGraw-Hill, 859 p.
Japelj M.1992. RASTLINSKA ZAŠČITNA SREDSTVA, Skripta, Univerza v Ljubljani,36 s.
Solomons, G., Fryhle, C. B., 2000. Organic Chemistry, seventh edition. John Wiley and Sons, Inc. New
York, p 1258 s.
Cilji in kompetence:
Cilji:
Predmet daje študentom teoretične osnove mnogih
naravnih pojavov in razlago zakonitosti, na katerih
je osnovana kemijska in fizikalno kemijska
klasifikacija materije. Predstavljena je povezava
med zgradbo snovi in njenim vplivom na kemijske
ter fizikalne lastnosti snovi. V okviru predmeta
slušatelj
spozna
nekatere
teoretične
in
2
Objectives and competences:
Objectives:
The course gives students theoretical basis of several
natural phenomena and explanation of principles, on
which chemical and physical classification of matter is
established. Correlation between substance structure and
its effect on chemical and physical properties of the
substance is presented. During the course students get to
know some theoretical and practical experimental
Fakulteta za industrijski inženiring
Novo mesto
Faculty for Industrial Engineering
Novo mesto
eksperimentalne metode, ki so osnova pri reševanju
tehnoloških problemov, zlasti v povezavi z njihovo
bodočo dejavnostjo v industriji, obrti in storitvah.
methods
that are the basis of solving technological
problems, especially in connection with their future
industry, trade and service activities.
Kompetence:
Sposobnost uporabe pridobljenega teoretičnega
znanja v praksi
Usposobljenost za ocenjevanje in vrednotenje
merilnih rezultatov
Usposobljenost za načrtovanje in spremljanje
tehnoloških procesov
Competences:
Ability of using of the gained theoretical knowledge
in practical work
Qualification for estimation and evaluation of
measuring results
Qualification for planning and monitoring of
technological processes
Predvideni študijski rezultati:
Intended learning outcomes:
Znanje in razumevanje:
Knowledge and understanding:
Študent/študentka:
Student:
osveţi in nadgradi znanje iz kemije z niţjih
freshens up and upgrades his/her knowledge in
nivojev šolanja
chemistry from lower school levels
poglobi razumevanje kemijskih konceptov
deepens his/her understanding of chemical concepts
razume povezavo med zgradbo snovi in njenimi
understands correlation between structure and their
fizikalno kemijskimi lastnostmi
physical-chemical properties of substances
spozna nekatere teoretične in eksperimentalne
comes to know several theoretical and experimental
metode, ki so osnova pri pripravi, spremljanju,
methods that are the basis of preparing, monitoring,
vodenju in razumevanju določenih tehnoloških
managing
and
understanding
of
different
postopkov.
technological procedures
spozna pomen raziskav in razvoja pri uveljavljanju
comes to know the importance of research and
novih tehnologij.
development in implementations of the new
technologies
Metode poučevanja in učenja:
sistematična predavanja
individualno in skupinsko delo s študenti v obliki
konzultacij
eksperimentalno delo v ustrezno fizikalno
kemijsko opremljenem laboratoriju
abstraktna konceptualizacija
Načini ocenjevanja:
Način (pisni izpit, ustno izpraševanje,
naloge, projekt)
Izpit:
pisni izpit
ustni izpit
Learning and teaching methods:
systematic lectures
individual and group work with students such as
consultations
experimental work in adequately physco-chemically
equipped laboratory
abstract conceptualization
Delež (v %) /
Assessment:
Weight (in %)
Type (written and oral examination,coursework,
project):
70 %
30 %
Seminar (po ţelji) lahko doprinese h
3
Examination:
written examination
oral examination
Fakulteta za industrijski inženiring
Novo mesto
končni oceni izpita do 10 %.
Vaje:
kolokvij iz vaj
praktično delo in poročila iz vaj
Faculty for Industrial Engineering
Novo mesto
Seminar (if desired) can contribute to the final
mark of exam up to 10 %
70 %
30 %
Experimental work:
colloquium from lab work
coursework report
Reference nosilca / Lecturer's references:
Prof. dr. Miha Japelj:
JAPELJ, Miha, POKORNY, Miroslav. Antibiotiki včeraj, danes, jutri, Raziskovalec, 1991, 21 (1), 26-41.
JAPELJ, Miha, VITEZIĆ, Natalija. Important Industrial Synthesis of Betalactam Antibiotics, Rad
Jugoslovenske akademije, 1983, 2, str. 103-116, ilustr. [COBISS.SI-ID 21898245].
JAPELJ, Miha, VITEZIĆ, Natalija. Some Aspects in the Industrial Synthesis of ß-Lactam Antibiotics,
Vestn. Slov. Kem. Društva, 1990, 459-480.
LEBAN, Ivan, GOLIČ, Ljubo, JAPELJ, Miha. Crystal and Molecular Structure of Qinghaosu, Acta
Pharm. Jugosl., 1988, 71-77.
LIKAR, Miha, JAPELJ, Miha. Animal Carneas as Tools for the Testing of Antiviral Compounds, Annals
of the New York Academy of Science, 1977, 182-189.
MERSLAVIČ, Mario, ZUPET, Pavle, FLEGO, Vesna, JAPELJ, Miha, STANOVNIK, Branko,
CIRNSKI, Janja. Postopek za pripravo derivatov L-alanil-L-prolina, Jugoslovanski patent, 1355, 1988.
OKLOBDŢIJA, Milan, JAPELJ, Miha, OSTROVERŠNIK, Srečko, JERMAN, Peter. Postopek za
pripravo 7-kloro-2,3-hidro-1-metil-5-fenil-1H-1,4-benzodiazepina, Avstralski patent, 44945, 1972.
JAPELJ, Miha, RASPOR, Peter, GASPARIČ, Aleš, KOGEJ, Stane. Kritične tehnologije in tehnološko
predvidevanje na področjih kemije in biotehnologije v slovenski farmacevtski industriji, Vizija in
strategija razvoja kemijske industrije v Sloveniji, FKKT, Maribor, 2000.
POKORNY, Miroslav, JAPELJ, Miha, FILIPOVIĆ, Branko, ČADEŢ, Janez. Proizvodnja antibiotikov in
drugi sekundarnih metabolitov, Biotehnologija, 1992, 397-417.
JAPELJ, Miha, STANOVNIK, Branko, TIŠLER Miha. Syntheses in the pyridazine series. 30,
Protonation and quaternization studies on imidazo[1, 2-b]pyridazines and s-triazolo[4,3-b]pyridazines. J.
heterocycl. chem., August 1969, vol. 6, str. 559-566. [COBISS.SI-ID 19731205].
JAPELJ, Miha, STANOVNIK, Branko, TIŠLER Miha. Synthesen in der Pyridazin-Reihe. Mitt. 26,
Synthese und homolytische Methylierung von s-Triazolo[4,3-b]pyridazinen. Monatsh. Chem., 1969, vol.
100, str. 671-680, graf. prikazi. [COBISS.SI-ID 19730437].
LIKAR, Miha, JAPELJ, Miha. Animal corneas as tools for the testing of antiviral compounds. Ann. N.Y.
Acad. Sci., 1977, vol. 284, str. 182-189, ilustr. [COBISS.SI-ID 21926917]
Prof. dr. Darja Rudan Tasič:
RUDAN TASIČ, Darja, KLOFUTAR, Cveto. Calorimetric studies of the neutralization of polygalacturonic
acid. Thermochim. acta. [Print ed.], 1994, 246, str. 25-32. [COBISS.SI-ID 1023352]
RUDAN TASIČ, Darja, KLOFUTAR, Cveto. Osmotic coefficients and solvation thermodynamics of aqueous
solutions of some lower poly(ethylene glycol)s at different temperatures. J. mol. liq.. [Print ed.], 2003, vol.
103/104, str. 187-200. [COBISS.SI-ID 2730872]
RUDAN TASIČ, Darja, KLOFUTAR, Cveto. Volumetric properties of aqueous solutions of some
cyclohexylsulfamates at 25.0 °C. Food chem.. [Print ed.], 2004, vol. 84, no. 3, str. 351-357. [COBISS.SI-ID
2825080]
RUDAN TASIČ, Darja, KLOFUTAR, Cveto. Apparent specific volume and apparent specific refraction of
some poly (oxyethylene) glycols in 1,4-dioxane and benzene solutions at 298.15 K. Monatsh. Chem., 2004,
vol. 135, str. 1209-1224. [COBISS.SI-ID 3008120]
RUDAN TASIČ, Darja, KLOFUTAR, Cveto. Apparent specific polarization and dipole moment of some
4
Fakulteta za industrijski inženiring
Novo mesto
Faculty for Industrial Engineering
Novo mesto
poly(oxyethylene) glycols in 1,4-dioxane and benzene solutions at 298.15 K. Monatsh. Chem., 2005, vol. 136,
str. 1171-1182. [COBISS.SI-ID 3091832]
RUDAN TASIČ, Darja, KLOFUTAR, Cveto, BEŠTER-ROGAČ, Marija. The electric conductivities of
aqueous solutions of rubidium and cesium cyclohexylsulfamates, potassium acesulfame and sodium saccharin.
Acta chim. slov.. [Tiskana izd.], 2006, vol. 53, no. 3, str. 324-330, Graf. prikazi. http://acta.chem-soc.si/53/533-324.pdf. [COBISS.SI-ID 27955461]
KLOFUTAR, Cveto, HORVAT, Jaka, RUDAN TASIČ, Darja. Apparent molar volume and apparent molar
expansibility of rubidium, cesium, and ammonium cyclohexylsulfamate in aqueous solution. Monatsh. Chem.,
2006, vol. 137, str. 1151-1162. [COBISS.SI-ID 3230840]
LEBAN, Ivan, RUDAN TASIČ, Darja, LAH, Nina, KLOFUTAR, Cveto. Structures of artificial sweeteners :
cyclamic acid and sodium cyclamate with other cyclamates. Acta crystallogr., B Struct. sci., 2007, vol. B63,
no. 3, str. 418-425, ilustr. [COBISS.SI-ID 28619269]
RUDAN TASIČ, Darja, KLOFUTAR, Cveto. Fizikalnokemijske metode v živilstvu. Ljubljana: Biotehniška
fakulteta, Oddelek za ţivilstvo, 2007. VI, 376 str., ilustr. ISBN 978-961-6333-56-6. [COBISS.SI-ID
233342464]
HORVAT, Jaka, BEŠTER-ROGAČ, Marija, KLOFUTAR, Cveto, RUDAN TASIČ, Darja. Viscosity of
aqueous solutions of lithium, sodium, potassium, rubidium and caesium cyclohexylsulfamates from 293.15 to
323.15 K. J. solution chem., 2008, vol. 37, no. 9, str. 1329-1342. [COBISS.SI-ID 29743365]
RUDAN TASIČ, Darja, POKLAR ULRIH, Nataša, KLOFUTAR, Cveto. Osmotic coefficients of aqueous
solutions of potassium acesulfame, sodium saccharin, and ammonium and tetramethylammonium
cyclohexylsulfamates at the freezing point of solutions. Monatsh. Chem., 2010, vol. 141, no. 2, str. 149-155,
doi: 10.1007/s00706-009-0237-0. [COBISS.SI-ID 3741048]
RUDAN TASIČ, Darja, KLOFUTAR, Cveto, BEŠTER-ROGAČ, Marija. Dipole moment and self-association
of acesulfame and saccharin in 1,4-dioxane solution at 298.15 K. Monatsh. Chem., 2011, vol. 142, no. 1, str.
19-24, doi: 10.1007/s00706-010-0411-4. [COBISS.SI-ID 34659333]
5