Karta przedmiotów

Organic chemistry

Some basic information about the module

Cycle of education: 2022/2023

The name of the faculty organization unit: The faculty Chemistry

The name of the field of study: Pharmaceutical engineering

The area of study: technical/biological sciences

The profile of studing:

The level of study: first degree study

Type of study: full time

discipline specialities :

The degree after graduating from university: Bachelor of Science (BSc)

The name of the module department : Department of Organic Chemistry

The code of the module: 12681

The module status: mandatory for teaching programme

The position in the studies teaching programme: sem: 3 / W30 C30 L30 / 8 ECTS / E

The language of the lecture: Polish

The name of the coordinator: Prof. Iwona Zarzyka, DSc, PhD, Eng.

The aim of studying and bibliography

The main aim of study: The student should obtain knowledge of the basic chemical and physical properties, as well as preparation methods of main organic compounds including electron displacement effects as the basic method of predicting physical properties and reactions of organic compounds

The general information about the module: The module is implemented in the third semester. In the third semester there are 30 hours of lectures, 30 hours of classes and 30 hours laboratory, .The module ends with an exam.

Bibliography required to complete the module

Bibliography used during lectures
1	Lubczak J.	Podstawy chemii organicznej	Oficyna Wydawnicza Politechniki Rzeszowskiej, Rzeszów.	2011.
2	Białecka-Florjańczyk E.	Chemia organiczna	WNT, Warszawa.	2003
3	Patrick G.	Chemia organiczna	PWN, Warszawa.	2002
4	Hornby M., Peach J.	Podstawy chemii organicznej	WNT, Warszawa.	1996

Bibliography used during classes/laboratories/others
1	Chmiel-Szukiewicz E., Kijowska D., Zarzyka-Niemiec I.	Laboratorium chemii organicznej. Metody syntezy i analizy zwiazków organicznych	Wydawnictwo Oświatowe FOSZE, Rzeszów.	2010
2	Vogel A.	Preparatyka organiczna	Wydawnictwo Naukowe PWN, Warszawa.	2018

Bibliography to self-study
1	Morrison R., Boyd R.	Chemia organiczna, t. I i II	PWN, Warszawa.	2010
2	McMurry J.	Chemia organiczna, tom 1 i 2	PWN, Warszawa.	2000
3	Mastalerz P.	Chemia organiczna	PWN, Warszawa.	1984

Basic requirements in category knowledge/skills/social competences

Formal requirements: Registration for semester III

Basic requirements in category knowledge: Basic knowledge of general chemistry and organic chemistry from high school.

Basic requirements in category skills: Ability to present structural formulas and write reactions of basic organic compounds.

Basic requirements in category social competences: Ability to interact and work in a group.

Module outcomes

MEK	The student who completed the module	Types of classes / teaching methods leading to achieving a given outcome of teaching	Methods of verifying every mentioned outcome of teaching	Relationships with KEK	Relationships with PRK
01	Has a basic knowledge of the names of the basic classes of organic compounds.	lecture, classes	written exam, colloquium, written test	K_W02++ K_K01+	P6S_KK P6S_WG
02	Has a basic knowledge of the structure, preparation methods, physical and chemical properties of the main classes of organic compounds.	lecture, classes, laboratory	written exam, colloquium, written test, written report	K_W02++ K_U05++ K_U14++ K_K01++	P6S_KK P6S_UO P6S_UW P6S_WG
03	Has a basic knowledge of the some mechanisms of organic reactions.	lecture, classes, laboratory	written exam, colloquium, written test, written report	K_W02++ K_U05+ K_U14+	P6S_UO P6S_UW P6S_WG
04	Can be called simple organic compounds from different classes.	lecture, classes	colloquium, written test	K_W02++	P6S_WG
05	Can propose the basic method of obtaining the classes of organic compounds and can predict a chemical properties of simple compounds based on the structure and the effects of electron transfer.	ecture, classes, laboratory	written exam, colloquium, written test, written report	K_W02+ K_U05+ K_U14+ K_K01+	P6S_KK P6S_UO P6S_UW P6S_WG
06	Can do simple synthesis of organic compounds.	laboratory	performance monitoring, written report	K_U05+ K_U14+	P6S_UO P6S_UW
07	Can use simple techniques of separation and purification of organic compounds and can mean their physical properties.	laboratory	performance monitoring, written report	K_U05+ K_U14+	P6S_UO P6S_UW
08	Can work in a team in the synthesis, isolation of simple organic compounds.	laboratory	performance monitoring	K_K02+	P6S_KO P6S_KR

Attention: Depending on the epidemic situation, verification of the achieved learning outcomes specified in the study program, in particular credits and examinations at the end of specific classes, can be implemented remotely (real-time meetings).

The syllabus of the module

Sem.	TK	The content	realized in	MEK
3	TK01	The concept of organic chemistry. Features of carbon as an element and carbon compounds. Elementary, constitutional, electronic and spatial construction of organic compounds. Isomerism of organic compounds - structural, conformational, geometric and optical.The effects of electronic shifts (inductive, mesomeric) and their use for the translation of the properties of organic compounds. Acid-base properties of organic compounds. Types of organic reactions and types of mechanisms.Brief analysis of individual classes of organic compounds: saturated, unsaturated and aromatic hydrocarbons, halogenated hydrocarbons, alcohols and phenols, ethers, aldehydes and ketones, carboxylic acids and their derivatives: halides, anhydrides, ester amides (including fats, lipids, soaps); organic nitrogen compounds, amines, amino acids, peptides, purine and pyrimidine bases; carbohydrates.	W01-W15, C01-C15	MEK01 MEK02 MEK03 MEK04 MEK05
3	TK02	Preparation and testing of properties of compounds selected from various classes of organic compounds. Techniques and methods of separation and purification of organic compounds and determination of basic physical constants.	L01-L06	MEK06 MEK07 MEK08

The student's effort

The type of classes	The work before classes	The participation in classes	The work after classes
Lecture (sem. 3)		contact hours: 30.00 hours/sem.	Studying the recommended bibliography: 10.00 hours/sem.
Class (sem. 3)	The preparation for a Class: 30.00 hours/sem. The preparation for a test: 20.00 hours/sem.	contact hours: 30.00 hours/sem.
Laboratory (sem. 3)	The preparation for a Laboratory: 6.00 hours/sem. The preparation for a test: 12.00 hours/sem.	contact hours: 30.00 hours/sem.	Finishing/Making the report: 6.00 hours/sem.
Advice (sem. 3)	The preparation for Advice: 10.00 hours/sem.
Exam (sem. 3)	The preparation for an Exam: 20.00 hours/sem.	The written exam: 3.00 hours/sem.

The way of giving the component module grades and the final grade

The type of classes	The way of giving the final grade
Lecture	Written exam including the whole scope of material. The final exam grade depends on the amount of points : 3.0 52.0%-62.0% ; 3.5 62.1%-72.0%; 4.0 72.1%-82.0%; 4.5 82.1%-92.0%; 5.0 92.1%-100%.
Class	Activity during lectures, passing 3 tests. Repeat test for those who didn’t pass the tests during the semester. The final grade depends on the amount of points: : 3.0 52.0%-62.0% ; 3.5 62.1%-72.0%; 4.0 72.1%-82.0%; 4.5 82.1%-92.0%; 5.0 92.1%-100%. The final grade is a weighted average; the weight of a test is twice greater than a weight of an oral test or minor test.
Laboratory	Each laboratory exercise must be positively included. The final grade of the exercise is an arithmetic average from written test, experiment and report. The final grade of the laboratory is an arithmetic average from all exercise included in the curriculum
The final grade	Final grade (K): K = 0,4 w C + 0,3 w L + 0,3 w E; where: C, L, E - positive evaluation of the classes, lab and exam; w - factor related to the time of credit or examination, w= 1.0 first term, w = 0.9 second term , w = 0.8 third term. The grade is rounded according to WKZJK.

Sample problems

Required during the exam/when receiving the credit
(-)

Realized during classes/laboratories/projects
(-)

Others
(-)

Can a student use any teaching aids during the exam/when receiving the credit : no

The contents of the module are associated with the research profile: yes

1	A. Czerniecka-Kubicka; L. Dobrowolski; K. Hęclik; I. Zarzyka	Kompozyt polimerowy oraz sposób wytwarzania kompozytu polimerowego	2024
2	M. Bakar; A. Białkowska; B. Hanulikova; W. Kucharczyk; M. Masař; I. Zarzyka	Polylactide-Based Nonisocyanate Polyurethanes: Preparation, Properties Evaluation and Structure Analysis	2024
3	A. Czerniecka-Kubicka; A. Szyszkowska; I. Zarzyka	Hybrydowy nanokompozyt polimerowy i sposób jego otrzymywania	2023
4	A. Czerniecka-Kubicka; B. Krzykowska; I. Zarzyka	Bionanocomposites based on the poly(3-hydroxybutyrate) matrix modified with aliphatic polyurethanes and nanoclay	2023
5	A. Czerniecka-Kubicka; G. Neilsen; M. Pyda; M. Skotnicki; P. Tutka; B. Woodfield; I. Zarzyka	Heat capacity of cytisine – the drug for smoking cessation	2023
6	A. Czerniecka-Kubicka; M. Pyda; M. Skotnicki; I. Zarzyka	Liquid heat capacity of amorphous poly(vinyl methyl ether)	2023
7	A. Czerniecka-Kubicka; W. Gonciarz; B. Jadach; M. Kovářová; L. Lovecká; K. Maternia-Dudzik; M. Pyda; V. Sedlařík; M. Skotnicki; P. Tutka; I. Zarzyka	The cytisine-enriched poly(3-hydroxybutyrate) fibers for sustained-release dosage form	2023
8	A. Szyszkowska; I. Zarzyka	Sposób wytwarzania estru	2023
9	L. Dobrowolski; K. Hęclik; M. Jaromin; I. Zarzyka	A Practical Test of Distance Learning During the COVID-19 Lockdown	2023
10	M. Bakar; A. Białkowska; A. Czerniecka-Kubicka; L. Dobrowolski; K. Hęclik; B. Krzykowska; M. Longosz; I. Zarzyka	Polymer Biocompositions and Nanobiocomposites Based on P3HB with Polyurethane and Montmorillonite	2023
11	M. Bakar; A. Białkowska; A. Czerniecka-Kubicka; M. Kovářová; B. Krzykowska; V. Sedlařík; I. Zarzyka	Polymer/Layered Clay/Polyurethane Nanocomposites: P3HB Hybrid Nanobiocomposites—Preparation and Properties Evaluation	2023
12	M. Bakar; A. Białkowska; W. Kucharczyk; I. Zarzyka	Hybrid Epoxy Nanocomposites: Improvement in Mechanical Properties and Toughening Mechanisms—A Review	2023
13	M. Chmiela; A. Czerniecka-Kubicka; L. Dobrowolski; W. Gonciarz; K. Hęclik; M. Longosz; A. Szyszkowska; D. Trzybiński; K. Woźniak; A. Wróbel; I. Zarzyka	Molecular Modeling of 3-chloro-3-phenylquinoline-2,4-dione, Crystal Structure and Cytotoxic Activity for developments in a potential new drug	2023
14	M. Bakar; A. Białkowska; A. Czerniecka-Kubicka; L. Dobrowolski; K. Hęclik; B. Krzykowska; I. Zarzyka	Biobased poly(3-hydroxybutyrate acid) composites with addition of aliphatic polyurethane based on polypropylene glycols	2022
15	A. Czerniecka-Kubicka; M. Pyda; I. Zarzyka	Sposób pomiaru ciepła właściwego alifatycznego poliuretanu liniowego, zwłaszcza 4,6-PU	2021
16	K. Hęclik; K. Hęclik; I. Zarzyka	Metal-Humus Acid Nanoparticles - Synthesis, Characterization and Molecular Modeling	2021
17	M. Bakar; A. Białkowska; A. Czerniecka-Kubicka; L. Dobrowolski; K. Hęclik; K. Leś; M. Pyda; M. Walczak; I. Zarzyka	Thermally stable biopolymer composites based on poly(3-hydroxybutyrate) modified with linear aliphatic polyurethanes – preparation and properties	2021
18	W. Frącz; T. Pacześniak; I. Zarzyka	Rigid polyurethane foams modified with borate and oxamide groups-Preparation and properties	2021
19	A. Białkowska; L. Dobrowolski; L. Wianowski; I. Zarzyka	Physical blowing agents for polyurethanes	2020
20	A. Czerniecka-Kubicka; L. Dobrowolski; K. Hęclik; I. Zarzyka	Biodegradowalne kompozyty polimerowe na osnowie P3HB	2020
21	A. Czerniecka-Kubicka; M. Dickson; D. Hojan-Jezierska; M. Janus-Kubiak; L. Kubisz; G. Neilsen; M. Pyda; M. Skotnicki; B. Woodfield; I. Zarzyka; W. Zielecki	Vibrational heat capacity of silver carp collagen	2020
22	A. Czerniecka-Kubicka; M. Pyda; I. Zarzyka	Long-Term Physical Aging Tracked by Advanced Thermal Analysis of Poly(N-Isopropylacrylamide): A Smart Polymer for Drug Delivery System	2020
23	A. Szyszkowska; I. Zarzyka	Sposób wytwarzania 1-fenylo-2-(2-hydroksyetylo)-6H-imidazo[1,5-c]chinazolino-3,5-dionu i 1-fenylo-2-(2-hydroksypropylo)-6H-imidazo[1,5-c]chinazolino-3,5-dionu	2020
24	M. Bakar; A. Białkowska; B. Hanulikova; M. Masař; I. Zarzyka	Effect of structure of nonisocyanate condensation polyurethanes based on benzoic acid on its susceptibility to biodegradation	2020
25	R. Bartosik; L. Dobrowolski; K. Hęclik; A. Klasek; A. Lycka; I. Zarzyka	New mono- and diesters with imidazoquinolinone ring- synthesis, structure characterization and molecular modeling	2020
26	Ł. Byczyński; A. Czerniecka-Kubicka; W. Frącz; M. Pyda; V. Sedlarik; A. Szyszkowska; I. Zarzyka	Hybrid nanobiocomposites based on poly(3-hydroxybutyrate) – characterization, thermal and mechanical properties	2020
27	A. Czerniecka-Kubicka; A. Szyszkowska; I. Zarzyka	Hybrydowy nanokompozyt polimerowy i sposób jego otrzymywania	2019
28	A. Szyszkowska; I. Zarzyka	Sposób otrzymywania 1,3-bis(2-hydroksyetylo)-4-fenylo-5-[2(2-oksoksazol-3-ylo)fenylo]imidazol-2-onu	2019
29	J. Lubczak; R. Lubczak; I. Zarzyka	Sposób otrzymywania polieteroli z pierścieniami azacyklicznymi	2019
30	K. Hęclik; A. Klasek; S. Pawlędzio; A. Szyszkowska; D. Trzybiński; K. Woźniak; I. Zarzyka	Unprecedented reaction course of 1-phenyl-2H,6H-imidazo[1,5-c]quinazoline-3,5-dione with an excess of ethylene oxide	2019
31	K. Hęclik; A. Szyszkowska; I. Zarzyka	Spatial packing of diols and esters with imidazoquinazoline ring - quantum-mechanical modelling	2019
32	Ł. Byczyński; A. Czerniecka-Kubicka; K. Gancarczyk; M. Pyda; V. Sedlarik; A. Szyszkowska; I. Zarzyka	Linear polyurethanes with imidazoquinazoline rings: preparation and properties evaluation	2019