Analytical 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: Biotechnology
The area of study: technical sciences
The profile of studing:
The level of study: first degree study
Type of study: past time
discipline specialities : Applied biochemistry, Purification and analysis of biotechnological products
The degree after graduating from university: Bachelor of Science (BSc)
The name of the module department : Department of Inorganic and Analytical Chemistry
The code of the module: 10907
The module status: mandatory for teaching programme Applied biochemistry, Purification and analysis of biotechnological products
The position in the studies teaching programme: sem: 3 / W9 L18 / 3 ECTS / Z
The language of the lecture: Polish
The name of the coordinator: Elżbieta Woźnicka, PhD
The aim of studying and bibliography
The main aim of study: The student should have a theoretical knowledge and practical skills from the area of the classic chemical analysis methods.
The general information about the module: Classification of analytical chemistry, scale, accuracy and precision of a method. Analytical errors, statistical evaluation of results. General scheme of quantitative analysis. Classification and characteristics of methods of chemical analysis. Theoretical basis of volumetric analysis. Calculations and analysis in the field of volumetric analysis and gravimetric methods.
Teaching materials: Instrukcje do ćwiczeń.
Bibliography required to complete the module
| 1 | D. Kealey, P.J. Haines | Chemia analityczna, krótkie wykłady | PWN, Warszawa. | 2006. |
| 2 | J. Minczewski, Z. Marczenko | Chemia analityczna, t. I i II | PWN, Warszawa . | 1997. |
| 3 | M. Kopacz | Chemia analityczna, podstawy teoretyczne analizy ilościowej | Oficyna Wydawnicza Politechniki Rzeszowskiej, Rzeszów. | 1997. |
| 1 | J. Minczewski, Z. Marczenko | , Chemia analityczna, t. II. | PWN, Warszawa. | 1997. |
| 2 | Praca zbiorowa pod red. Z. Galusa | Ćwiczenia rachunkowe z chemii analitycznej | PWN, Warszawa. | 1996. |
Basic requirements in category knowledge/skills/social competences
Formal requirements: Registration for the given semester.
Basic requirements in category knowledge: Basic theoretical and practical knowledge in the area of general and inorganic chemistry.
Basic requirements in category skills: Basic manual skills necessary to the realization of simple chemical analyses. The knowledge of basic equipment applied in the chemical laboratory.
Basic requirements in category social competences: The knowledge of the basic of BHP and anti-fire rules in the chemical laboratory. Consciousness of the dangerous influences of chemical substances on organism and natural environment.
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 | The student should have a theoretical knowledge in the area of the classic methods of chemical analysis: volumetric methods and gravimetric analysis. | lecture | the written test |
K_W04++ K_U06++ K_K01++ |
P6S_KK P6S_KR P6S_UU P6S_WG |
| 02 | Student should perform the analysis according to the definite analytic procedure in the area of the classic chemical analysis. | laboratory | the colloquium | ||
| 03 | Student should know how to calculate and interpret the results of analyse. | lecture, laboratory | the colloquium | ||
| 04 | Student be able to co-operate and work in the laboratory group in the studio of analytic chemistry. | laboratory | observation of performance |
K_K03++ |
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 | wykład, laboratorium | MEK01 | |
| 3 | TK02 | L01,L02 | MEK02 MEK04 | |
| 3 | TK03 | L03,L04 | MEK02 MEK04 | |
| 3 | TK04 | L05 | MEK02 MEK04 | |
| 3 | TK05 | L06 | MEK02 MEK04 | |
| 3 | TK06 | L01,L02,L03,L04,L05,L06 | MEK03 |
The student's effort
| The type of classes | The work before classes | The participation in classes | The work after classes |
|---|---|---|---|
| Lecture (sem. 3) | The preparation for a test:
15.00 hours/sem. |
contact hours:
9.00 hours/sem. |
complementing/reading through notes:
5.00 hours/sem. Studying the recommended bibliography: 10.00 hours/sem. |
| Laboratory (sem. 3) | contact hours:
18.00 hours/sem. |
||
| Advice (sem. 3) | The participation in Advice:
2.00 hours/sem. |
||
| Credit (sem. 3) | The preparation for a Credit:
15.00 hours/sem. |
The written 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 | |
| Laboratory | |
| The final grade | The final score from the object (K) is counted according to the example K = 0,5wW + 0,5wL; where w-factor related 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
Analiza objętościowa-zagadnienuia do kolokwium.pdf
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 | Ł. Byczyński; M. Kosińska-Pezda; E. Woźnicka; L. Zapała; W. Zapała | Synteza oraz badania składu i właściwości związków: 3-hydroksyflawonu, chryzyny oraz sulfonowych pochodnych chryzyny i kwercetyny z jonami Mn(II) | 2023 |
| 2 | E. Ciszkowicz; M. Kosińska-Pezda; K. Lecka-Szlachta; A. Miłoś; E. Woźnicka; L. Zapała | Analiza właściwości antybakteryjnych oraz cytotoksyczności kompleksów jonów Co(II), Mn(II) oraz Zn(II) z chryzyną oraz 3-hydroksyflawonem | 2022 |
| 3 | M. Kosińska-Pezda; E. Woźnicka; L. Zapała | Synteza i charakterystyka spektroskopowa kompleksów jonów lantanowców ciężkich z 3-hydroksyflawonem | 2022 |
| 4 | M. Kosińska-Pezda; U. Maciołek; E. Woźnicka; L. Zapała | Kompleksy 3-hydroksyflawonu z jonami Zn(II) - synteza i właściwości związków | 2022 |
| 5 | M. Kosińska-Pezda; U. Maciołek; E. Woźnicka; L. Zapała; W. Zapała | Synteza, badania składu i właściwości spektroskopowych kompleksów wybranych jonów metali przejściowych z kwasem niflumowym | 2022 |
| 6 | A. Kuźniar; U. Maciołek; E. Pieniążek; J. Pusz; E. Sočo; E. Woźnicka | Związek kwasu kwercetyno-5’-sulfonowego z jonami sodu. Synteza, właściwości, zastosowanie | 2021 |
| 7 | E. Ciszkowicz; K. Lecka-Szlachta; J. Pusz; E. Woźnicka | Antybakteryjna aktywność sulfonowych pochodnych chryzyny | 2021 |
| 8 | E. Ciszkowicz; M. Kosińska-Pezda; A. Kuźniar; K. Lecka-Szlachta; E. Pieniążek; E. Woźnicka; L. Zapała | Synteza, charakterystyka i właściwości biologiczne kompleksów jonów antanowców lekkich z 3-hydroksyflawonem | 2021 |
| 9 | 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 |
| 10 | Ł. Byczyński; E. Ciszkowicz; M. Kosińska-Pezda; K. Lecka-Szlachta; U. Maciołek; E. Woźnicka; L. Zapała; W. Zapała | Green synthesis of niflumic acid complexes with some transition metal ions (Mn(II), Fe(III), Co(II), Ni(II), Cu(II) and Zn(II)). Spectroscopic, thermoanalytical and antibacterial studies | 2021 |
| 11 | Ł. Byczyński; M. Kosińska-Pezda; U. Maciołek; E. Woźnicka; L. Zapała; W. Zapała | Thermal study, temperature diffraction patterns and evolved gas analysis during pyrolysis and oxidative decomposition of novel ternary complexes of light lanthanides with mefenamic acid and 1,10-phenanthroline | 2021 |
| 12 | J. Kalembkiewicz; A. Kuźniar; B. Papciak; J. Pusz; E. Sitarz-Palczak; E. Sočo; E. Woźnicka | Pierwiastki i związki chemiczne | 2020 |
| 13 | J. Kalembkiewicz; A. Kuźniar; E. Pieniążek; E. Sočo; E. Woźnicka | Aktywność biochemiczna sulfonowych pochodnych moryny | 2020 |
| 14 | J. Kalembkiewicz; B. Papciak; J. Pusz; E. Sitarz-Palczak; E. Woźnicka | Roztwory i procesy w roztworach | 2020 |
| 15 | M. Kopacz; A. Kuźniar; B. Papciak; J. Pusz; E. Woźnicka | Badania reakcji kompleksowania chryzyny z jonami Nd(III), Tb(III) i Dy(III) w roztworach wodno-metanolowych | 2020 |
| 16 | M. Kosińska-Pezda; E. Pieniążek; E. Woźnicka; L. Zapała | Badania stałych produktów reakcji jonów Ag(I) i Cu(II) z 3-hydroksyflawonem i moryną | 2020 |
| 17 | M. Kosińska; E. Woźnicka; L. Zapała; W. Zapała | Response of the DFT study to the calculations of selected microdissociation constants of anthranilic acid and its derivatives | 2019 |
| 18 | Ł. Byczyński; M. Chutkowski; E. Ciszkowicz; M. Kosińska; K. Lecka-Szlachta; E. Woźnicka; L. Zapała; W. Zapała | Comparison of spectral and thermal properties and antibacterial activity of new binary and ternary complexes of Sm(III), Eu(III) and Gd (III) ions with N-phenylanthranilic acid and 1,10-phenanthroline | 2019 |