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Elements of crystallography A

General data

Course ID:	1600-DLCW2EKA
Erasmus code / ISCED:	(unknown) / (0531) Chemistry The ISCED (International Standard Classification of Education) code has been designed by UNESCO.
Course title:	Elements of crystallography A
Name in Polish:	Elements of crystallography A
Organizational unit:	Faculty of Chemistry
Course groups:
ECTS credit allocation (and other scores):	0 OR 3.00 (depends on study program) Basic information on ECTS credits allocation principles: the annual hourly workload of the student’s work required to achieve the expected learning outcomes for a given stage is 1500-1800h, corresponding to 60 ECTS; the student’s weekly hourly workload is 45 h; 1 ECTS point corresponds to 25-30 hours of student work needed to achieve the assumed learning outcomes; weekly student workload necessary to achieve the assumed learning outcomes allows to obtain 1.5 ECTS; work required to pass the course, which has been assigned 3 ECTS, constitutes 10% of the semester student load. view allocation of credits
Language:	English
Prerequisits:	Mathematics on the basic level of high school.
Short description:	The subject and scope of crystallography researches; point group symmetry; description of crystal and molecular symmetry; basic terms and laws of crystal chemistry, fundaments and applications of crystal X-ray diffraction
Learning outcomes:	After completing the course each student : 1) defines the basic crystallographic concepts; 2) recreates knowledge of point group theory; 3) lists the concepts related to the structure and nomenclature of the crystal lattice; 4) presents the criteria for the classification and properties of different types of crystal structures; 5) explains the phenomenon of X-ray diffraction in crystals; 6) describes the methods of diffractive research of crystal structure 16C-1A_W05; 16C-1A_W06; 16C-1A_W08; 16C-1A_W09; 16C-1A_W13; 16Cb-1A_W05; 16Cb-1A_W06; 16Cb-1A_W08; 16Cb-1A_W09; 16Cb-1A_W13; 16M-1A_W02; 16M-1A_W05; 16M-1A_W07; 16M-1A_W09; 16M-1A_W12; 16A-1A_W05; 16A-1A_W06; 16A-1A_W10; 7) recognizes and describes the point symmetry of objects and crystal lattices with the use of crystallographic notation; 8) identifies, classifies and describes crystal structures; 9) prepares and presents a short presentation on crystallographic topics; 16C-1A_U01; 16C-1A_U03; 16C-1A_U10; 16Cb-1A_U01; 16Cb-1A_U03; 16Cb-1A_U10; 16M-1A_U01; 16M-1A_U05; 16M-1A_U11; 16A-1A_U01; 16A-1A_U08; 16A-1A_U12; 16A-1A_U13; 16A-1A_U16; 16A-1A_U17; 10) solves the tasks assigned to the team in a consistent and effective manner; 11) understand the need to improve personal competences; 16C-1A_K03; 16C-1A_K04; 16C-1A_K05; 16Cb-1A_K03; 16Cb-1A_K04; 16CB-1A_K05; 16M-1A_ K03; 16M-1A_K04; 16M-1A_K05; 16A-1A_K02; 16A-1A_K03; 16A-1A_K07;

Classes in period "Summer Semester 2024/2025" (future)

Time span:	2025-02-17 - 2025-09-30	Selected timetable range: weekly course term Navigate to timetable
Type of class:	Discussion class, 14 hours more information Lecture, 14 hours more information
Coordinators:	Agnieszka Rybarczyk-Pirek
Group instructors:	(unknown)
Students list:	(inaccessible to you)
Examination:	(in Polish) Ocena zgodna z regulaminem studiów
Additional Information:	knowledge and skills will be verified during the exam; social competences will be verified through the assessment of the answers to the control questions;
(in Polish) Czy IRK BWZ?:	(in Polish) T
Teaching Method:	Lecture with elements of mutlimedial presentation Conversatory: 1. Practical courses 2. Problem method - discussion and work in groups
Method and Criteria of Assessment:	Conversatory: passing practical exercises or written tests; Lecture: final written test. Final grade of the subject: the conversatory and the lecture grades are taken into account in equal parts (weights: 0.4 +0.6).
(in Polish) Metody weryfikacji i oceny stopnia osiągnięcia założonych efektów uczenia się:	knowledge and skills will be verified during the exam; social competences will be verified through the assessment of the answers to the control questions and by assessing students' behavior in class - during teamwork and when giving presentations
Course Content:	1. Subject and scope of crystallography research. 2. Theory of symmetry, crystallographic notation. 3. Theory of group and point groups, international Hermann-Mauguin i Schoenflies notation. 4. Macroscopic symmetry and morphology of crystals. 5. Crystal lattice, Bravais lattices and crystalographic systems. 6. Basic terms and laws of crystal chemistry, close packing model, description of selected crystal structures. 7. X-ray crystal diffraction - scientific principles and application in recognition of molecular structure of chemical compounds.
Bibliography:	C. Giacovazzo, HL Monaco, D Viterbo, F Scordari,G Gilli, G Zanotti M Catti - "Fundamentals of Crystallography" (1992) Oxford University Press. International Tables of Crystallography.

Classes in period "Summer Semester 2023/2024" (in progress)

Time span:	2024-02-26 - 2024-09-30	Selected timetable range: weekly course term Navigate to timetable
Type of class:	Discussion class, 14 hours more information Lecture, 14 hours more information
Coordinators:	Agnieszka Rybarczyk-Pirek
Group instructors:	Agnieszka Rybarczyk-Pirek
Students list:	(inaccessible to you)
Examination:	(in Polish) Ocena zgodna z regulaminem studiów
Additional Information:	knowledge and skills will be verified during the exam; social competences will be verified through the assessment of the answers to the control questions;
(in Polish) Czy IRK BWZ?:	(in Polish) T
Teaching Method:	Lecture with elements of mutlimedial presentation Conversatory: 1. Practical courses 2. Problem method - discussion and work in groups
Method and Criteria of Assessment:	Conversatory: passing practical exercises or written tests; Lecture: final written test. Final grade of the subject: the conversatory and the lecture grades are taken into account in equal parts (weights: 0.4 +0.6).
(in Polish) Metody weryfikacji i oceny stopnia osiągnięcia założonych efektów uczenia się:	knowledge and skills will be verified during the exam; social competences will be verified through the assessment of the answers to the control questions and by assessing students' behavior in class - during teamwork and when giving presentations
Course Content:	1. Subject and scope of crystallography research. 2. Theory of symmetry, crystallographic notation. 3. Theory of group and point groups, international Hermann-Mauguin i Schoenflies notation. 4. Macroscopic symmetry and morphology of crystals. 5. Crystal lattice, Bravais lattices and crystalographic systems. 6. Basic terms and laws of crystal chemistry, close packing model, description of selected crystal structures. 7. X-ray crystal diffraction - scientific principles and application in recognition of molecular structure of chemical compounds.
Bibliography:	C. Giacovazzo, HL Monaco, D Viterbo, F Scordari,G Gilli, G Zanotti M Catti - "Fundamentals of Crystallography" (1992) Oxford University Press. International Tables of Crystallography.

Classes in period "Summer Semester 2022/2023" (past)

Time span:	2023-02-20 - 2023-09-30	Selected timetable range: weekly course term Navigate to timetable
Type of class:	Discussion class, 14 hours more information Lecture, 14 hours more information
Coordinators:	Agnieszka Rybarczyk-Pirek
Group instructors:	Lilianna Chęcińska, Agnieszka Rybarczyk-Pirek
Students list:	(inaccessible to you)
Examination:	(in Polish) Ocena zgodna z regulaminem studiów
Additional Information:	knowledge and skills will be verified during the exam; social competences will be verified through the assessment of the answers to the control questions;
(in Polish) Czy IRK BWZ?:	(in Polish) T
Teaching Method:	Lecture with elements of mutlimedial presentation Conversatory: 1. Practical courses 2. Problem method - discussion and work in groups
Method and Criteria of Assessment:	Conversatory: passing practical exercises or written tests; Lecture: final written test. Final grade of the subject: the conversatory and the lecture grades are taken into account in equal parts (weights: 0.4 +0.6).
(in Polish) Metody weryfikacji i oceny stopnia osiągnięcia założonych efektów uczenia się:	knowledge and skills will be verified during the exam; social competences will be verified through the assessment of the answers to the control questions and by assessing students' behavior in class - during teamwork and when giving presentations
Course Content:	1. Subject and scope of crystallography research. 2. Theory of symmetry, crystallographic notation. 3. Theory of group and point groups, international Hermann-Mauguin i Schoenflies notation. 4. Macroscopic symmetry and morphology of crystals. 5. Crystal lattice, Bravais lattices and crystalographic systems. 6. Basic terms and laws of crystal chemistry, close packing model, description of selected crystal structures. 7. X-ray crystal diffraction - scientific principles and application in recognition of molecular structure of chemical compounds.
Bibliography:	C. Giacovazzo, HL Monaco, D Viterbo, F Scordari,G Gilli, G Zanotti M Catti - "Fundamentals of Crystallography" (1992) Oxford University Press. International Tables of Crystallography.

Classes in period "Summer Semester 2021/2022" (past)

Time span:	2022-02-21 - 2022-09-30	Selected timetable range: weekly course term Navigate to timetable
Type of class:	Discussion class, 14 hours more information Lecture, 14 hours more information
Coordinators:	Bogna Rudolf, Agnieszka Rybarczyk-Pirek
Group instructors:	Małgorzata Domagała, Bogna Rudolf, Agnieszka Rybarczyk-Pirek
Students list:	(inaccessible to you)
Examination:	(in Polish) Ocena zgodna z regulaminem studiów
(in Polish) Czy IRK BWZ?:	(in Polish) T
Teaching Method:	Lecture with elements of mutlimedial presentation Conversatory: 1. Practical courses 2. Problem method - discussion and work in groups
Method and Criteria of Assessment:	Conversatory: passing practical exercises or written tests; Lecture: final written test. Final grade of the subject: the conversatory and the lecture grades are taken into account in equal parts (weights: 0.4 +0.6).
Course Content:	1. Subject and scope of crystallography research. 2. Theory of symmetry, crystallographic notation. 3. Theory of group and point groups, international Hermann-Mauguin i Schoenflies notation. 4. Macroscopic symmetry and morphology of crystals. 5. Crystal lattice, Bravais lattices and crystalographic systems. 6. Basic terms and laws of crystal chemistry, close packing model, description of selected crystal structures. 7. X-ray crystal diffraction - scientific principles and application in recognition of molecular structure of chemical compounds.
Bibliography:	C. Giacovazzo, HL Monaco, D Viterbo, F Scordari,G Gilli, G Zanotti M Catti - "Fundamentals of Crystallography" (1992) Oxford University Press. International Tables of Crystallography.

Classes in period "Summer Semester 2020/2021" (past)

Time span:	2021-03-08 - 2021-09-30	Selected timetable range: weekly course term Navigate to timetable
Type of class:	Discussion class, 14 hours more information Lecture, 14 hours more information
Coordinators:	Bogna Rudolf, Agnieszka Rybarczyk-Pirek
Group instructors:	Małgorzata Domagała, Bogna Rudolf, Agnieszka Rybarczyk-Pirek
Students list:	(inaccessible to you)
Examination:	Course - (in Polish) Ocena zgodna z regulaminem studiów Discussion class - (in Polish) Ocena zgodna z regulaminem studiów Lecture - (in Polish) Zaliczenie lub ocena
(in Polish) Czy IRK BWZ?:	(in Polish) T
Teaching Method:	Lecture with elements of mutlimedial presentation Conversatory: 1. Practical courses 2. Problem method - discussion and work in groups
Method and Criteria of Assessment:	Conversatory: passing practical exercises or written tests; Lecture: final written test. Final grade of the subject: the conversatory and the lecture grades are taken into account in equal parts (weights: 0.4 +0.6).
Course Content:	1. Subject and scope of crystallography research. 2. Theory of symmetry, crystallographic notation. 3. Theory of group and point groups, international Hermann-Mauguin i Schoenflies notation. 4. Macroscopic symmetry and morphology of crystals. 5. Crystal lattice, Bravais lattices and crystalographic systems. 6. Basic terms and laws of crystal chemistry, close packing model, description of selected crystal structures. 7. X-ray crystal diffraction - scientific principles and application in recognition of molecular structure of chemical compounds.
Bibliography:	C. Giacovazzo, HL Monaco, D Viterbo, F Scordari,G Gilli, G Zanotti M Catti - "Fundamentals of Crystallography" (1992) Oxford University Press. International Tables of Crystallography.

Classes in period "Summer Semester 2019/2020" (past)

Time span:	2020-02-24 - 2020-09-30	Selected timetable range: weekly course term Navigate to timetable
Type of class:	Discussion class, 14 hours more information Lecture, 14 hours more information
Coordinators:	Bogna Rudolf, Agnieszka Rybarczyk-Pirek
Group instructors:	Małgorzata Domagała, Agnieszka Rybarczyk-Pirek
Students list:	(inaccessible to you)
Examination:	Course - (in Polish) Ocena zgodna z regulaminem studiów Discussion class - (in Polish) Ocena zgodna z regulaminem studiów Lecture - (in Polish) Zaliczenie lub ocena
(in Polish) Czy IRK BWZ?:	(in Polish) T
Teaching Method:	Lecture with elements of mutlimedial presentation Conversatory: 1. Practical courses 2. Problem method - discussion and work in groups
Method and Criteria of Assessment:	Conversatory: passing practical exercises or written tests; Lecture: final written test. Final grade of the subject: the conversatory and the lecture grades are taken into account in equal parts (weights: 0.4 +0.6).
Course Content:	1. Subject and scope of crystallography research. 2. Theory of symmetry, crystallographic notation. 3. Theory of group and point groups, international Hermann-Mauguin i Schoenflies notation. 4. Macroscopic symmetry and morphology of crystals. 5. Crystal lattice, Bravais lattices and crystalographic systems. 6. Basic terms and laws of crystal chemistry, close packing model, description of selected crystal structures. 7. X-ray crystal diffraction - scientific principles and application in recognition of molecular structure of chemical compounds.
Bibliography:	C. Giacovazzo, HL Monaco, D Viterbo, F Scordari,G Gilli, G Zanotti M Catti - "Fundamentals of Crystallography" (1992) Oxford University Press. International Tables of Crystallography.

Classes in period "Summer Semester 2018/2019" (past)

Time span:	2019-02-18 - 2019-09-30	Selected timetable range: weekly course term Navigate to timetable MO TU W TH FR W K
Type of class:	Discussion class, 14 hours more information Lecture, 14 hours more information
Coordinators:	Bogna Rudolf, Agnieszka Rybarczyk-Pirek
Group instructors:	Małgorzata Domagała, Agnieszka Rybarczyk-Pirek
Students list:	(inaccessible to you)
Examination:	Course - (in Polish) Ocena zgodna z regulaminem studiów Discussion class - (in Polish) Ocena zgodna z regulaminem studiów Lecture - (in Polish) Zaliczenie lub ocena
(in Polish) Czy IRK BWZ?:	(in Polish) T
Teaching Method:	Lecture with elements of mutlimedial presentation Conversatory: 1. Practical courses 2. Problem method - discussion and work in groups
Method and Criteria of Assessment:	Conversatory: 3 written tests; Lecture: short test after each lecture or final written test. Final grade of the subject: the conversatory and the lecture grades are taken into account in equal parts (weights: 0.4 +0.6).
Course Content:	1. Subject and scope of crystallography research. 2. Theory of symmetry, crystallographic notation. 3. Theory of group and point groups, international Hermann-Mauguin i Schoenflies notation. 4. Macroscopic symmetry and morphology of crystals. 5. Crystal lattice, Bravais lattices and crystalographic systems. 6. Basic terms and laws of crystal chemistry, close packing model, description of selected crystal structures. 7. X-ray crystal diffraction - scientific principles and application in recognition of molecular structure of chemical compounds.
Bibliography:	1. M.J. Grabowski - "Krystalografia" 2. Z. Kosturkiewicz - "Metody Krystalografii" 3. Z. Bojarski i in.- "Krystalografia" 4. Z. Trzaska Durski, H. Trzaska Durska "Podstawy Krystalografii" 5. M. Meerssche, J. Feneau-Dupont - "Krystalografia i chemia strukturalna" 6. C. Giacovazzo, HL Monaco, D Viterbo, F Scordari,G Gilli, G Zanotti M Catti - "Fundamentals of Crystallography" (1992) Oxford University Press

Classes in period "Summer Semester 2017/2018" (past)

Time span:	2018-02-19 - 2018-09-30	Selected timetable range: weekly course term Navigate to timetable
Type of class:	Discussion class, 14 hours more information Lecture, 14 hours more information
Coordinators:	Bogna Rudolf, Agnieszka Rybarczyk-Pirek
Group instructors:	Małgorzata Domagała, Agnieszka Rybarczyk-Pirek
Students list:	(inaccessible to you)
Examination:	Course - (in Polish) Ocena zgodna z regulaminem studiów Discussion class - (in Polish) Ocena zgodna z regulaminem studiów Lecture - (in Polish) Zaliczenie lub ocena
(in Polish) Czy IRK BWZ?:	(in Polish) T
Teaching Method:	Lecture with elements of mutlimedial presentation Conversatory: 1. Practical courses 2. Problem method - discussion and work in groups
Method and Criteria of Assessment:	Conversatory: 3 written tests; Lecture: short test after each lecture or final written test. Final grade of the subject: the conversatory and the lecture grades are taken into account in equal parts (weights: 0.4 +0.6).
Course Content:	1. Subject and scope of crystallography research. 2. Theory of symmetry, crystallographic notation. 3. Theory of group and point groups, international Hermann-Mauguin i Schoenflies notation. 4. Macroscopic symmetry and morphology of crystals. 5. Crystal lattice, Bravais lattices and crystalographic systems. 6. Basic terms and laws of crystal chemistry, close packing model, description of selected crystal structures. 7. X-ray crystal diffraction - scientific principles and application in recognition of molecular structure of chemical compounds.
Bibliography:	1. M.J. Grabowski - "Krystalografia" 2. Z. Kosturkiewicz - "Metody Krystalografii" 3. Z. Bojarski i in.- "Krystalografia" 4. Z. Trzaska Durski, H. Trzaska Durska "Podstawy Krystalografii" 5. M. Meerssche, J. Feneau-Dupont - "Krystalografia i chemia strukturalna" 6. C. Giacovazzo, HL Monaco, D Viterbo, F Scordari,G Gilli, G Zanotti M Catti - "Fundamentals of Crystallography" (1992) Oxford University Press

Course descriptions are protected by copyright.
Copyright by UNIVERSITY OF LODZ.