(in Polish) Przedmioty - 2 semestr programu X-S1-CHE (course group defined by Faculty of Chemistry)
Course group schedules
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2020/SZ - Academic year 2020/2021, winter semester -
2021/SL - Academic year 2020/2021, summer semester -
2021/SZ - Academic year 2021/2022, winter semestr -
2022/SL - Academic year 2021/2022, summer semester -
2022/SZ - Academic year 2022/2023, winter semester -
2023/SL - Academic year 2022/2023, summer semester -
2023/SZ - Academic year 2023/2024, winter semester -
2024/SL - Academic year 2023/2024, summer semester -
Schedule joined by timespan
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2020/SZ - Academic year 2020/2021, winter semester 2021/SL - Academic year 2020/2021, summer semester 2021/SZ - Academic year 2021/2022, winter semestr 2022/SL - Academic year 2021/2022, summer semester 2022/SZ - Academic year 2022/2023, winter semester 2023/SL - Academic year 2022/2023, summer semester 2023/SZ - Academic year 2023/2024, winter semester 2024/SL - Academic year 2023/2024, summer semester (there could be semester, trimester or one-year classes) |
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| 2020/SZ | 2021/SL | 2021/SZ | 2022/SL | 2022/SZ | 2023/SL | 2023/SZ | 2024/SL | |||||||
| 02-FIZL |
 
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n/a | n/a |
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n/a |
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n/a | n/a |
Classes
Academic year 2020/2021, winter semester
Groups
Brief description
Mechanics. Kinematics, selected problems related to material point and rigid body dynamics, conservation laws, harmonic motion, resonance. Thermodynamics and molecular physics. Macroscopic description of state of physical systems, parameters of state, ideal gas laws, laws of thermodynamics, phases of matter, phase transitions. Electricity and magnetism. Electrostatics, direct electric current, magnetic field of direct electric current, electromagnetic induction, electric and magnetic properties of matter. Waves. Description of harmonic waves, characteristic phenomena in wave motion, classification of waves, electromagnetic waves, electromagnetic spectrum. Elements of modern physics. Atomic physics, Bohr model of hydrogen atom, absorption and emission spectra, nuclear physics, fundamental particles. |
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| 02-HCHH | n/a |
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n/a |
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n/a |
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n/a | n/a |
Classes
Academic year 2020/2021, summer semester
Groups
Brief description
No brief description found, go to course home page to get more information.
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| 02-KHPH | n/a |
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n/a | n/a | n/a | n/a | n/a | n/a |
Classes
Academic year 2020/2021, summer semester
Groups
Brief description
No brief description found, go to course home page to get more information.
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| 02-MATL-22 | n/a |
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n/a |
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n/a |
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n/a | n/a |
Classes
Academic year 2020/2021, summer semester
Groups
Brief description
Elements of Linear Algebra: Vector spaces. Matrices and determinants. Solving of systems of algebraic linear equations (Cramer's theorem and matrix method). Solving eigenvalue problem of a square matrix. Integral calculus of real-valued functions. Primitive functions. Indefinite integrals. Basic methods of calculation of integrals. Newton-Leibnitz formula. Definite Riemann integral and its applications. Improper integrals and their properties. Functions of several variables. Partial derivatives and their properties. Higher order derivatives (for functions of n variables: gradient, divergence, curl). Total differential. Extreme of functions of several variables. Multiple integrals and their applications. Complex numbers. Differential equations: equations with separable variables, linear equations, linear equations of order n. Systems of ordinary differential equations. Separation of variables of partial differential equation. |
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| 02-PSNH | n/a |
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n/a |
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n/a |
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n/a | n/a |
Classes
Academic year 2020/2021, summer semester
Groups
Brief description
No brief description found, go to course home page to get more information.
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| 02-PCHAL-12 | n/a |
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n/a |
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n/a | n/a | n/a |
Classes
Academic year 2020/2021, summer semester
Groups
Brief description
Presentation of fundamental problems of classical inorganic analytical chemistry. Description of fundamental principles and concepts of analytical chemistry: equilibria in water solutions, dissociation, acid and base concept, proton activity, acid and base properties within the Brønsted-Lowry theory, buffer solution, redox reactions. Apart from theoretical problems much emphasis is put on practical application of classical analytical methods in quantitative and qualitative analysis, mostly on methods of separationof cations and anions, heterogenous system from homogenous ones. At laboratory classes students are acquainted with elementary methods of classical inorganic analysis: gravimetry, titration (volumetric methods). Students carry out experiments included in th course programme. At blackboard classes students are introduced to and trained in basic calculation methods needed to perform or interpret laboratory experiments: weight and volume methods. |
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| 02-PCHAL-22 |
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n/a |
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n/a |
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n/a | n/a |
Classes
Academic year 2020/2021, winter semester
Groups
Brief description
Presentation of fundamental problems of classical inorganic analytical chemistry. Description of fundamental principles and concepts of analytical chemistry: equilibria in water solutions, dissociation, acid and base concept, proton activity, acid and base properties within the Brønsted-Lowry theory, buffer solution, redox reactions. Apart from theoretical problems much emphasis is put on practical application of classical analytical methods in quantitative and qualitative analysis, mostly on methods of separationof cations and anions, heterogenous system from homogenous ones. At laboratory classes students are acquainted with elementary methods of classical inorganic analysis: gravimetry, titration (volumetric methods). Students carry out experiments included in th course programme. At blackboard classes students are introduced to and trained in basic calculation methods needed to perform or interpret laboratory experiments: weight and volume methods. |
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| 02-PCHNL-12 | n/a |
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n/a | n/a |
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n/a |
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n/a |
Classes
Academic year 2020/2021, summer semester
Groups
Brief description
Classification of inorganic compounds. Periodic table, electronic structure and elements (periodicity of physical and chemical properties, ionization energies and electron affinities, electronegativity). Molecular shape, the VSEPR model. Bonding models: VB and MO theory. Introduction to molecular symmetry and bonding in polyatomic molecules. Structure and energy relations in metallic and ionic solids. Coordination complexes (definition and terminology), stability constants, factors affecting the stabilities of complexes - HASB theory. Hydrogen, polar and non-polar bonds, hydrogen isotopes, hydrogen bonding, binary hydrides - classification and properties. Elements of s- and p-block (occurrence, extraction and use, physical properties, structure and chemical properties of its compounds). Elements of d -block (CF and LF theory). Chemistry of the first row metals of d-block elements. The 2 and 3 row metals of d-block. Organometallic compounds. Lanthanoides and actinoides. |
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| 02-PCHNL-22 |
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n/a |
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n/a | n/a |
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n/a |
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Classes
Academic year 2020/2021, winter semester
Groups
Brief description
Classification of inorganic compounds. Periodic table, electronic structure and elements (periodicity of physical and chemical properties, ionization energies and electron affinities, electronegativity). Molecular shape, the VSEPR model. Bonding models: VB and MO theory. Introduction to molecular symmetry and bonding in polyatomic molecules. Structure and energy relations in metallic and ionic solids. Coordination complexes (definition and terminology), stability constants, factors affecting the stabilities of complexes - HASB theory. Hydrogen, polar and non-polar bonds, hydrogen isotopes, hydrogen bonding, binary hydrides - classification and properties. Elements of s- and p-block (occurrence, extraction and use, physical properties, structure and chemical properties of its compounds). Elements of d -block (CF and LF theory). Chemistry of the first row metals of d-block elements. The 2 and 3 row metals of d-block. Organometallic compounds. Lanthanoides and actinoides. |
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| 02-PCHOL-13 | n/a |
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n/a |
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n/a | n/a | n/a | n/a |
Classes
Academic year 2020/2021, summer semester
Groups
Brief description
No brief description found, go to course home page to get more information.
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| 02-PPREH | n/a |
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n/a |
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n/a |
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n/a | n/a |
Classes
Academic year 2020/2021, summer semester
Groups
Brief description
No brief description found, go to course home page to get more information.
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| 02-PRPH | n/a |
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n/a |
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n/a |
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n/a | n/a |
Classes
Academic year 2020/2021, summer semester
Groups
Brief description
No brief description found, go to course home page to get more information.
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| 02-RKMH | n/a |
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n/a |
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n/a |
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n/a | n/a |
Classes
Academic year 2020/2021, summer semester
Groups
Brief description
No brief description found, go to course home page to get more information.
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| 02-SFH | n/a |
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n/a |
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n/a |
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n/a | n/a |
Classes
Academic year 2020/2021, summer semester
Groups
Brief description
No brief description found, go to course home page to get more information.
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| 02-WCHNL | n/a | n/a | n/a |
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n/a |
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n/a | n/a |
Classes
Academic year 2021/2022, summer semester
Groups
Brief description
No brief description found, go to course home page to get more information.
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| 02-WCHOL | n/a | n/a | n/a |
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n/a |
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n/a | n/a |
Classes
Academic year 2021/2022, summer semester
Groups
Brief description
No brief description found, go to course home page to get more information.
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| 02-WFIPH | n/a |
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n/a | n/a | n/a | n/a | n/a | n/a |
Classes
Academic year 2020/2021, summer semester
Groups
Brief description
No brief description found, go to course home page to get more information.
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