The aim of studying and bibliography

The main aim of study: Achieving essential and organized knowledge from the field of general and inorganic chemistry as the science. Student is expected to reach the knowledge on basic chemical laws, atom structure, chemical bonds, and states of matter. Also expected is ability to perform the chemical calculations. Student is expected to attain the knowledge on properties of elements and inorganic compounds and laboratory techniques. Student is expected to attain the knowledge on properties of ions and inorganic salts and to reach abilities to perform qualitative analysis.

The general information about the module: The module is realised by three semesters. In the first semester there are 30 hours of lectures and 45 hours of classes, in the second semester there are of 30 hours lecture, 30 hours of classes and 45 hours of laboratory and in the third semester there are 45 hours of laboratory. In the first and second semester module ends with an exam. In the third semester module ends with a credit.

Teaching materials: na stronie domowej

Bibliography required to complete the module

Bibliography used during lectures

1	L. Jones, P. Atkins, P.	Chemia ogólna	PWN Warszawa.	2018
2	A. Bielański	Podstawy chemii nieorganicznej	PWN Warszawa.	2014
3	Praca zbiorowa pod red. J. Kalembkiewicz, B. Papciak. Chemia ogólna i nieorganiczna	Podstawy chemii, roztwory i procesy w roztworach. Obliczenia chemiczne i problemy	Oficyna Wydawnicza Politechniki Rzeszowskiej.	2020
4	Praca zbiorowa pod red. J. Kalembkiewicz, B. Papciak. Chemia ogólna i nieorganiczna	Pierwiastki i związki chemiczne, surowce i produkty nieorganiczne	Oficyna Wydawnicza Politechniki Rzeszowskiej.	2020
5	A. Cotton, G. Wilkinson, P. Gaus	Chemia nieorganiczna	PWN Warszawa.	1999
6	L. Pajdowski	Chemia ogólna	PWN Warszawa.	1999

Bibliography used during classes/laboratories/others

1	Praca zbiorowa pod red. J. Kalembkiewicz, B. Papciak. Chemia ogólna i nieorganiczna	Podstawy chemii, roztwory i procesy w roztworach. Obliczenia chemiczne i problemy	Oficyna Wydawnicza Politechniki Rzeszowskiej.	2020
2	Praca zbiorowa pod red. J. Kalembkiewicz, B. Papciak. Chemia ogólna i nieorganiczna	Pierwiastki i związki chemiczne, surowce i produkty nieorganiczne	Oficyna Wydawnicza Politechniki Rzeszowskiej.	2020
3	Praca zbiorowa pod redakcją A. Śliwy	Obliczenia chemiczne	PWN Warszawa.	1987
4	Praca zbiorowa pod red. J. Kalembkiewicza	Chemia ogólna i nieorganiczna. Laboratorium	Oficyna Wydawnicza Politechniki Rzeszowskiej, Rzeszów.	2010
5	J. Minczewski, Z. Marczenko	Chemia analityczna. Tom 1. Podstawy teoretyczne i analiza jakościowa	PWN Warszawa.	2012
6	T. Lipiec, Z.S. Szmal	Chemia analityczna z elementami analizy instrumentalnej	PZWL, Warszawa.	1996

Basic requirements in category knowledge/skills/social competences

Formal requirements: Registration for the semester

Basic requirements in category knowledge: Knowledge of chemistry and mathematics at the basic level

Basic requirements in category skills: The ability to search and interpret the data

Basic requirements in category social competences: The ability to cooperate 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	Possesses basic knowledge and skills in the field of understanding of general end inorganic chemistry.	lecture	written exam	K_W03+++	P6S_WG
02	Possesses knowledge essential to understand technological reality and uses the correct chemical terminology.	lecture, laboratory, calculations	written exam	K_U03+++	P6S_UK
03	Know how to carry out the chemical calculations	lecture, laboratory, calculations	written test written exam	K_W03+ K_K03+	P6S_KR P6S_WG
04	Know how to carry out the chemical experiment.	laboratory	practical test	K_K03++	P6S_KR
05	Know how to carry out the interpret the results of calculations and draw valid the chemical experiment.	lecture, laboratory, calculations	written test, practical test written exam	K_K03+++	P6S_KR
06	Possesses basic skills in the field of understanding of general end inorganic chemistry.	calculations, laboratory	written test written exam	K_W03+	P6S_WG
07	Uses the correct chemical terminology	lecture, laboratory, calculations	written exam	K_U03+	P6S_UK

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
1	TK01	Concepts and chemical laws. Struture of atom. Periodicity of chemical properties. Ionization energy, electron affinity, electronegativity. Metal and non-metals. Chemical bonds. Covalent bonds. Formal oxidation state. Molecular orbital and valence bond theory. States of matter. Phase transistions. Gas state. Ideal gas state equation. Units of matter. Solid state. Ionic and molecular crystals. Liquids and solutions. Units of concentration. Electrochemical processes and corrosion. Chemical equilibrium. Mass action law.	W30	MEK01 MEK02 MEK06
1	TK02	The basic calculations: fundamental laws. Concentration of solutions: way of expression, conversion of concentration, dilution and mixing of solutions. Electrolytic dissociation of strong electrolytes. Activity and activity coefficient, ionic strength. Stoichiometric calculations based on chemical reaction equation. Elemental and real chemical formula. Yield of reaction. Oxidation and reduction reactions. Gas laws. Reaction kinetics. Chemical static, mass action law, chemical equilibrium	C45	MEK03
2	TK01	Inorganic compounds, terminology and classification. Electrolytic dissociation. Strong and weak electrolytes. Acid and base theories. Acids and bases. Ampholytes. Hydrolysis. Buffer solutions. Properties of elements. Inorganic compounds, preparation methods end properties. Main group metals (1, 2, 13). Elements of group 14-18. Radon, properties and dangers. Liquids and solutions. Colligative properties. D-block elements. F-block elements. Complex compounds. Crystal field theory.	W30	MEK01 MEK02 MEK07
2	TK02	1. Electrolytic dissociation of weak electrolytes. Ionic product of water, pH. 2. Dissociation constant and degree. 3. Buffer solutions. 4. Hydrolysis, the hydrolysis constant and degree. 5. Solubility product.	C30	MEK03
2	TK03	1. Basic laboratory operations and equipment. Synthesis of inorganic compounds. 2. Classification of inorganic compounds. 3. Types of chemical reactions. 4. Solutions: preparation and concentration calculations. 5. electrolytes – electrolytic degree and constant, pH, alkacymetric indicators. 6. Buffer solutions. 7. Inorganic complexes. 8. Hydrolysis - the hydrolysis constant and degree. 9. Precipitation, dissolving and chemical conversion of solid compounds. 10. Oxidation and reduction reactions.	L45	MEK02 MEK04 MEK05
3	TK01	Qualitative analysis of chosen cations, anions and salts. Characteristic reactions and control analysis of group I cations. Characteristic reactions and control analysis of group II cations. Characteristic reactions and control analysis of group III cations. Characteristic reactions and control analysis of group IV and V cations. Characteristic reactions and control analysis of anions. Control analysis of salt.	L45	MEK02 MEK04

The student's effort

The type of classes	The work before classes	The participation in classes	The work after classes
Lecture (sem. 1)		contact hours: 30.00 hours/sem.	complementing/reading through notes: 15.00 hours/sem. Studying the recommended bibliography: 30.00 hours/sem.
Class (sem. 1)	The preparation for a Class: 30.00 hours/sem. The preparation for a test: 15.00 hours/sem.	contact hours: 45.00 hours/sem.	Finishing/Studying tasks: 30.00 hours/sem.
Advice (sem. 1)	The preparation for Advice: 5.00 hours/sem.	The participation in Advice: 5.00 hours/sem.
Exam (sem. 1)	The preparation for an Exam: 15.00 hours/sem.	The written exam: 2.00 hours/sem.
Lecture (sem. 2)		contact hours: 30.00 hours/sem.	complementing/reading through notes: 10.00 hours/sem. Studying the recommended bibliography: 25.00 hours/sem.
Class (sem. 2)	The preparation for a Class: 10.00 hours/sem. The preparation for a test: 6.00 hours/sem.	contact hours: 30.00 hours/sem.	Finishing/Studying tasks: 10.00 hours/sem.
Laboratory (sem. 2)	The preparation for a Laboratory: 6.00 hours/sem. The preparation for a test: 10.00 hours/sem.	contact hours: 45.00 hours/sem.	Finishing/Making the report: 10.00 hours/sem.
Advice (sem. 2)	The preparation for Advice: 2.00 hours/sem.	The participation in Advice: 4.00 hours/sem.
Exam (sem. 2)	The preparation for an Exam: 15.00 hours/sem.	The written exam: 2.00 hours/sem.
Laboratory (sem. 3)	The preparation for a Laboratory: 2.00 hours/sem. The preparation for a test: 5.00 hours/sem.	contact hours: 45.00 hours/sem.	Finishing/Making the report: 2.00 hours/sem.
Advice (sem. 3)	The preparation for Advice: 1.00 hours/sem.	The participation in Advice: 1.00 hours/sem.
Credit (sem. 3)	The preparation for a Credit: 1.00 hours/sem.	The oral credit: 1.00 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	Positive mark on written exam (mark L); the student is required to pass the test on calculation exercises (C) before the exam. The final mark is rounded according to WKZJK.
Class	C: the final mark is averaged mark of thre written tests (mark C).The final mark is rounded according to WKZJK.
The final grade	Final mark in the module (FM): Semester 1: FM= 0.40 w C + 0.60 w E; where: C, E denote respectively positive mark in seminar (calculation exercises) and examination. w- coefficient for examination resits, w=1.0 for a regular examination, w=0.9 for a first resit, w=0.8 for a second resit. The final mark is rounded according to WKZJK. Semester 2: FM = 0.2 w C + 0.2 w L + 0.6 w E; where: C, L, E denote respectively positive mark in seminar (calculation exercises), laboratory and examination. w- coefficient for examination resits, w=1.0 for a regular examination, w=0.9 for a first resit, w=0.8 for a second resit. The final mark is rounded according to WKZJK. Semester 3: FM = in L; where: L - positive evaluation from the laboratory. coefficient for the laboratory completion date, w = 1.0 - the first term, w = 0.9 - the second term, w = 0.8 - the third term. The final grade is rounded off according to WKZJK.
Lecture	Positive mark on written exam (mark L); the student is required to pass the test on calculation exercises (C) before the exam and laboratory exercises.The final mark is rounded according to WKZJK.
Class	C: the final mark is averaged mark of thre written tests (mark C).The final mark is rounded according to WKZJK.
Laboratory	L: the final mark is averaged mark of all experiments performed, current written tests and final test (mark L). The final mark is rounded according to WKZJK.
The final grade	Final mark in the module (FM): Semester 1: FM= 0.40 w C + 0.60 w E; where: C, E denote respectively positive mark in seminar (calculation exercises) and examination. w- coefficient for examination resits, w=1.0 for a regular examination, w=0.9 for a first resit, w=0.8 for a second resit. The final mark is rounded according to WKZJK. Semester 2: FM = 0.2 w C + 0.2 w L + 0.6 w E; where: C, L, E denote respectively positive mark in seminar (calculation exercises), laboratory and examination. w- coefficient for examination resits, w=1.0 for a regular examination, w=0.9 for a first resit, w=0.8 for a second resit. The final mark is rounded according to WKZJK. Semester 3: FM = in L; where: L - positive evaluation from the laboratory. coefficient for the laboratory completion date, w = 1.0 - the first term, w = 0.9 - the second term, w = 0.8 - the third term. The final grade is rounded off according to WKZJK.
Laboratory	L: the final mark is averaged mark of all experiments performed, current written tests and final test (mark L). The final mark is rounded according to WKZJK.
The final grade	Final mark in the module (FM): Semester 1: FM= 0.40 w C + 0.60 w E; where: C, E denote respectively positive mark in seminar (calculation exercises) and examination. w- coefficient for examination resits, w=1.0 for a regular examination, w=0.9 for a first resit, w=0.8 for a second resit. The final mark is rounded according to WKZJK. Semester 2: FM = 0.2 w C + 0.2 w L + 0.6 w E; where: C, L, E denote respectively positive mark in seminar (calculation exercises), laboratory and examination. w- coefficient for examination resits, w=1.0 for a regular examination, w=0.9 for a first resit, w=0.8 for a second resit. The final mark is rounded according to WKZJK. Semester 3: FM = in L; where: L - positive evaluation from the laboratory. coefficient for the laboratory completion date, w = 1.0 - the first term, w = 0.9 - the second term, w = 0.8 - the third term. The final grade is rounded off 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	J. Kalembkiewicz; A. Kuźniar; B. Papciak; E. Sočo	Zastosowanie materiału krzemionkowego modyfikowanego surfaktantem do immobilizacji moryny	2023
2	J. Kalembkiewicz; M. Kopacz; J. Pusz	Współczesne metody badań i zastosowań flawonoidów: praca zbiorowa	2023
3	D. Galas; J. Kalembkiewicz; E. Sitarz-Palczak	Study of the Adsorption of Cu(II), Mn(II), Pb(II), and Zn(II) Ions on Geopolymers Obtained from Ashes from Biomass Combustion	2022
4	J. Kalembkiewicz; E. Pieniążek; J. Pusz; E. Sitarz-Palczak; E. Sočo	Badania właściwości kwercetyny i jej sulfonowych pochodnych w układach z fluoroforem	2022
5	J. Kalembkiewicz; M. Kopacz; J. Pusz	Flawonoidy i ich pochodne w badaniach naukowych i praktyce	2022
6	M. Dranka; J. Kalembkiewicz; D. Kamiński; A. Kozioł; A. Kuźniar; U. Maciołek; L. Mazur; E. Mendyk	Structural and spectroscopic studies of Na+ – Quercetin-5′-sulfonic acid polymeric complexes obtained via solvothermal synthesis	2022
7	J. Kalembkiewicz; B. Papciak; E. Pieniążek; E. Sočo	Stałe związki kompleksowe jonów tytanu(IV) z sulfonową pochodną moryny	2021
8	J. Kalembkiewicz; E. Pieniążek; E. Sočo	Adsorpcja flawonoidów na uporządkowanych mezoporowych materiałach krzemionkowych	2021
9	J. Kalembkiewicz; E. Sitarz-Palczak	Application of halloysite geopolymers to removal of methyl blue from aqueous solution	2021
10	J. Kalembkiewicz; E. Sitarz-Palczak	The Influence of Physical Modification on the Sorption Properties of Geopolymers Obtained from Halloysite	2021
11	J. Kalembkiewicz; M. Kopacz; J. Pusz	Badania naukowe i aplikacyjne flawonoidów	2021
12	J. Kalembkiewicz; M. Kopacz; J. Pusz	Nauka i praktyka w świecie flawonoidów	2021
13	J. Kalembkiewicz; M. Kosińska-Pezda; J. Pusz; E. Woźnicka; L. Zapała	Badania równowagi reakcji kompleksowania chryzyny z jonami Er(III) w układach: woda - metanol i woda - metanol - 1,4-dioksan	2021
14	J. Kalembkiewicz	Surowce i produkty nieorganiczne	2020
15	J. Kalembkiewicz	Uzupełnienia	2020
16	J. Kalembkiewicz; A. Kuźniar; B. Papciak; J. Pusz; E. Sitarz-Palczak; E. Sočo; E. Woźnicka	Pierwiastki i związki chemiczne	2020
17	J. Kalembkiewicz; A. Kuźniar; E. Pieniążek; E. Sočo; E. Woźnicka	Aktywność biochemiczna sulfonowych pochodnych moryny	2020
18	J. Kalembkiewicz; B. Papciak	Chemia ogólna i nieorganiczna. Pierwiastki i związki chemiczne. Surowce i produkty nieorganiczne: obliczenia chemiczne i problemy	2020
19	J. Kalembkiewicz; B. Papciak	Chemia ogólna i nieorganiczna. Podstawy chemii. Roztwory i procesy w roztworach: obliczenia chemiczne i problemy	2020
20	J. Kalembkiewicz; B. Papciak	Uzupełnienia	2020
21	J. Kalembkiewicz; B. Papciak; E. Pieniążek; J. Pusz; P. Skitał; E. Sočo; L. Zapała	Podstawy chemii	2020
22	J. Kalembkiewicz; B. Papciak; J. Pusz; E. Sitarz-Palczak; E. Woźnicka	Roztwory i procesy w roztworach	2020
23	J. Kalembkiewicz; D. Pająk; E. Sočo	Multi-component sorption and utilization of solid waste to simultaneous removing basic dye and heavy metal from aqueous system	2020
24	J. Kalembkiewicz; E. Sočo	Characterisation and utilisation of solid waste from coal combustion to modelling of sorption equilibrium in a bi-component system metal-dye	2020
25	J. Kalembkiewicz; E. Sočo	Immobilizing and Removal of Cadmium and Rhodamine B from an Aqueous System by Converting Solid Waste from Poland; Studies of Equilibrium and Kinetic Sorption	2020
26	J. Kalembkiewicz; M. Kopacz; J. Pusz	Świat flawonoidów w badaniach naukowych	2020
27	J. Kalembkiewicz; R. Rawski; P. Sanecki	Units and Methods of Proteolytic Activity Determination	2020
28	D. Galas; J. Kalembkiewicz; E. Sitarz-Palczak	Comparative study on the characteristics of coal fly ash and biomass ash geopolymers	2019
29	D. Galas; J. Kalembkiewicz; E. Sitarz-Palczak	Study of potential availability of heavy metals to phytoremediation to use of ash from biomass combustion	2019
30	J. Kalembkiewicz; D. Saletnik; P. Sanecki; P. Skitał	Electrodeposition of nickel from alkaline NH4OH/NH4Cl buffer solutions	2019
31	J. Kalembkiewicz; E. Sočo	Enhanced sorption capacity of a metal-dye system from water effluents by using activated industrial waste	2019