Wydział Nauk o Żywności i Rybactwa - Aquaculture and Fisheries (S1)
Sylabus przedmiotu Physics of aquatic environment:
Informacje podstawowe
Kierunek studiów | Aquaculture and Fisheries | ||
---|---|---|---|
Forma studiów | studia stacjonarne | Poziom | pierwszego stopnia |
Tytuł zawodowy absolwenta | inżynier | ||
Obszary studiów | charakterystyki PRK, kompetencje inżynierskie PRK | ||
Profil | ogólnoakademicki | ||
Moduł | — | ||
Przedmiot | Physics of aquatic environment | ||
Specjalność | przedmiot wspólny | ||
Jednostka prowadząca | Katedra Bioinżynierii | ||
Nauczyciel odpowiedzialny | Lilla Mielnik <Lilla.Mielnik@zut.edu.pl> | ||
Inni nauczyciele | |||
ECTS (planowane) | 4,0 | ECTS (formy) | 4,0 |
Forma zaliczenia | egzamin | Język | angielski |
Blok obieralny | — | Grupa obieralna | — |
Formy dydaktyczne
Wymagania wstępne
KOD | Wymaganie wstępne |
---|---|
W-1 | Basic knowledge of physics, mathematics and chemistry at the high school level |
Cele przedmiotu
KOD | Cel modułu/przedmiotu |
---|---|
C-1 | The ability to see and understand the basic physical and biophysical phenomena observed in seas and oceans |
C-2 | Acquiring the ability to conduct simple experiments |
Treści programowe z podziałem na formy zajęć
KOD | Treść programowa | Godziny |
---|---|---|
laboratoria | ||
T-L-1 | Introduction to laboratory classes - workshop regulations, Quality assessment of obtained measurement results, analysis of measurement uncertainty account. | 2 |
T-L-2 | Practical-implementation classes for the uncertainty calculus | 2 |
T-L-3 | Molecular physics and fluid mechanics laboratories classes | 6 |
T-L-4 | Laboratory classes of thermodynamics | 6 |
T-L-5 | Laboratory classes of conductometric and spectroscopic measurements | 6 |
T-L-6 | Optics and radioactivity laboratory classes | 6 |
T-L-7 | Passing classes | 2 |
30 | ||
wykłady | ||
T-W-1 | Water as a physical environment. Global water distribution, the water cycle. The water's structure in various physical states. The anomalous properties of water. | 2 |
T-W-2 | Sea water and its properties: physical, chemical and biological components of sea water. Salinity of sea water - salinity distribution. Salinity measurement of sea water. | 2 |
T-W-3 | Elements of thermodynamics. Temperature as an ecological factor. Principles of thermodynamics. Thermodynamic parameters of sea water: density and specific volume of sea water. The Equation of state of sea water. | 2 |
T-W-4 | Molecular transport - mass and momentum transfer processes in the sea. General transport equation, diffusion, osmosis. | 2 |
T-W-5 | Heat transfer mechanisms - thermal conduction (Fourier's law), thermal convection, thermal radiation, Stefan-Boltzmann's law, Wien law. Emission and absorption of thermal radiation and their importance for the movement of water masses. | 2 |
T-W-6 | Elements of hydrostatics. General characteristics of the liquid: hydrostatic pressure, fluid equilibrium conditions in connected vessels, definition of a perfect liquid, Pascal's law, Archimedes' law, swimming conditions of bodies. | 2 |
T-W-7 | Elements of hydrodynamics. Basic terms: volume flow, volume flow density. Perfect fluid motion - continuity equation, Bernoulli's law. Movement of real liquids - Newton's equation - fluid viscosity phenomenon. | 2 |
T-W-8 | Hydrodynamics of real liquids (Reynolds criterion, stationary flow, turbulent flow, shear stress in stationary and turbulent flows). | 2 |
T-W-9 | Surface tension in liquids. Phenomena at the interface of contact liquid-solid. Adhesive or cohesive forces, formation of meniscus in liquids, capillarity. Surface active substances (surfactants). | 2 |
T-W-10 | Newton’s law of universal gravitation. Inertia forces in translational and rotational movement- Coriolis force, the Ekman spiral. Sea currents, upwelling/downwelling, tides. | 2 |
T-W-11 | Elements of wave motion - basic wave parameters. Refraction, interference and diffraction of waves. The sea waving. Different types of sea waves. | 2 |
T-W-12 | Fundamentals of geometrical optics. Snelius' laws. Total internal reflection, light scattering, light absorption - Lambert-Beer law. Real and apparent optical properties of sea, sea albedo, solar constant, optical classification of water. | 3 |
T-W-13 | Acoustic wave formation - basic terms: acoustic wave speed, loudness, timbre, speed of sound propagation in the sea. Sound channels in the sea, convergence zone. Noise in the sea, sounds made by fish and other inhabitants of the sea. | 3 |
T-W-14 | Electrical properties of water: dipole moment, dielectric constant water as a solvent, electrolytic dissociation, electrostriction, electrolytic conductivity. | 2 |
30 |
Obciążenie pracą studenta - formy aktywności
KOD | Forma aktywności | Godziny |
---|---|---|
laboratoria | ||
A-L-1 | participation in laboratory classes | 30 |
A-L-2 | Preparation of reports on laboratory classes | 10 |
A-L-3 | Preparing for laboratory classes | 10 |
A-L-4 | Preparing to pass classes | 5 |
A-L-5 | Participation in consultations | 5 |
60 | ||
wykłady | ||
A-W-1 | participation in lectures | 30 |
A-W-2 | Preparing to pass exam | 12 |
A-W-3 | Participation in consultations | 5 |
A-W-4 | reading the literature | 12 |
59 |
Metody nauczania / narzędzia dydaktyczne
KOD | Metoda nauczania / narzędzie dydaktyczne |
---|---|
M-1 | Informative lecture using a projector |
M-2 | practical classes - performing laboratory experiments |
M-3 | Discussion, explanations |
Sposoby oceny
KOD | Sposób oceny |
---|---|
S-1 | Ocena podsumowująca: Grade for passing lectures |
S-2 | Ocena podsumowująca: Assessment of reports prepared on exercises performed. |
S-3 | Ocena podsumowująca: Grade from written pass of laboratory classes |
S-4 | Ocena formująca: Assessment of student activity during classes |
Zamierzone efekty uczenia się - wiedza
Zamierzone efekty uczenia się | Odniesienie do efektów kształcenia dla kierunku studiów | Odniesienie do efektów zdefiniowanych dla obszaru kształcenia | Odniesienie do efektów uczenia się prowadzących do uzyskania tytułu zawodowego inżyniera | Cel przedmiotu | Treści programowe | Metody nauczania | Sposób oceny |
---|---|---|---|---|---|---|---|
AQF_1A_B10_W01 The student has basic knowledge in the field of aquatic environment physics and biophysics.The student knows the basic concepts, correctly formulates definitions, laws and principles of physics.He can describe and explain the basic phenomena occurring in the natural environment. | AQF_1A_W01 | — | — | C-1 | T-W-3, T-W-2, T-W-1, T-W-5, T-W-8, T-W-10, T-W-11, T-W-12, T-W-13, T-W-14, T-W-6, T-W-9, T-W-7, T-W-4 | M-1, M-3 | S-1 |
Zamierzone efekty uczenia się - umiejętności
Zamierzone efekty uczenia się | Odniesienie do efektów kształcenia dla kierunku studiów | Odniesienie do efektów zdefiniowanych dla obszaru kształcenia | Odniesienie do efektów uczenia się prowadzących do uzyskania tytułu zawodowego inżyniera | Cel przedmiotu | Treści programowe | Metody nauczania | Sposób oceny |
---|---|---|---|---|---|---|---|
AQF_1A_B10_U01 The student knows how to plan and perform simple experiments in physics, and make measurements of basic physical quantities. He can carry out appropriate calculations, interpret the obtained results and formulate conclusions. The student can work independently and in a team. The student is able to use professional literature, knows where and how to look for information necessary to improve his skills. | AQF_1A_U01, AQF_1A_U08 | — | — | C-1, C-2 | T-L-3, T-L-4, T-L-5, T-L-6, T-L-2 | M-2, M-3 | S-2, S-3, S-4 |
Zamierzone efekty uczenia się - inne kompetencje społeczne i personalne
Zamierzone efekty uczenia się | Odniesienie do efektów kształcenia dla kierunku studiów | Odniesienie do efektów zdefiniowanych dla obszaru kształcenia | Odniesienie do efektów uczenia się prowadzących do uzyskania tytułu zawodowego inżyniera | Cel przedmiotu | Treści programowe | Metody nauczania | Sposób oceny |
---|---|---|---|---|---|---|---|
AQF_1A_B10_K01 The student is aware of the importance of biophysical phenomena occurring in the natural environment. The student shows a need / willingness to expand knowledge. The student is able to work independently and cooperate in a group, plans the work correctly. She/he ensures a compilance with the rules of the team work, cares about his own safety and that of others while performing the experiments. It respect its own work and that of others, is aware of the importance of work performed. The student respects the views and culture of others. | AQF_1A_K02, AQF_1A_K03, AQF_1A_K01 | — | — | C-1 | T-L-1, T-L-3, T-L-4, T-L-5, T-L-6, T-L-2 | M-1, M-2, M-3 | S-2, S-4 |
Kryterium oceny - wiedza
Efekt uczenia się | Ocena | Kryterium oceny |
---|---|---|
AQF_1A_B10_W01 The student has basic knowledge in the field of aquatic environment physics and biophysics.The student knows the basic concepts, correctly formulates definitions, laws and principles of physics.He can describe and explain the basic phenomena occurring in the natural environment. | 2,0 | The student does not have sufficient basic knowledge in the field of sea and ocean physics. |
3,0 | The student mastered the material from the lectures sufficiently. He knows the basic laws, principles and physical phenomena characterizing the aquatic environment. | |
3,5 | ||
4,0 | ||
4,5 | ||
5,0 | The student has a very extensive knowledge of the physics and biphysics of the seas and oceans. The student independently describes physical phenomena, correctly explains them using the laws of physics, critically analyzes them, and correctly associates them. |
Kryterium oceny - umiejętności
Efekt uczenia się | Ocena | Kryterium oceny |
---|---|---|
AQF_1A_B10_U01 The student knows how to plan and perform simple experiments in physics, and make measurements of basic physical quantities. He can carry out appropriate calculations, interpret the obtained results and formulate conclusions. The student can work independently and in a team. The student is able to use professional literature, knows where and how to look for information necessary to improve his skills. | 2,0 | The student is not able to independently carry out laboratory experiments using simple measuring instruments. In no way participates in teamwork. Has no ability to perform basic physical calculations. |
3,0 | The student is not able to carry out the experiments independently, requires the help of the teacher - passively participates in group work, does not take their own initiatives. He can correctly prepare a report, but presents "dry" results without the ability to effectively analyze them. | |
3,5 | ||
4,0 | ||
4,5 | ||
5,0 | The student is able to independently carry out measurements of physical quantities. He actively participates in group work, is able to organize team activities, undertakes his own initiatives. He can prepare a report very well. He can choose the appropriate method to assess the uncertainty of measurement results. Effectively presents, analyzes and discusses the obtained result. |
Kryterium oceny - inne kompetencje społeczne i personalne
Efekt uczenia się | Ocena | Kryterium oceny |
---|---|---|
AQF_1A_B10_K01 The student is aware of the importance of biophysical phenomena occurring in the natural environment. The student shows a need / willingness to expand knowledge. The student is able to work independently and cooperate in a group, plans the work correctly. She/he ensures a compilance with the rules of the team work, cares about his own safety and that of others while performing the experiments. It respect its own work and that of others, is aware of the importance of work performed. The student respects the views and culture of others. | 2,0 | The student is not aware of the importance of physical processes in the world around us, he does not understand the need to acquire and deepen knowledge. The student does not participate in any group work. I do not respect my own work and that of others. |
3,0 | The student is sufficiently aware of the importance of biophysical and physical processes occurring in the world around us, does not understand the need to acquire and deepen knowledge. Passively participates in teamwork. I do not respect my own work and that of others. | |
3,5 | ||
4,0 | ||
4,5 | ||
5,0 | The student is very well aware of the importance of physical processes in the world around us, understands the need to acquire and deepen knowledge. I respect my work and that of others. Can work independently and in a team. Manages teamwork, shows creativity. Is aware of the responsibility for his and others' safety. |
Literatura podstawowa
- Matthew D. McCluskey, No-Frills Physics A Concise Study Guide for Algebra-Based Physics, Taylor & Francis group, Boca Raton, 2019, 1, https://doi.org/10.1201/9780429506437
- Paul G. Hewitt, Conceptual Physics, ddison-Wesley, 1998
- Tim Mills, Physics at a Glance Full Physics Content of the New GCSE, Manson Publishing, London, 2008, 1, https://doi.org/10.1201/9781840765434
- Peter H. Gleick and Michael Cohen, The World's Water, Oakland CA: Pacific Institute, 2018
Literatura dodatkowa
- Mircea S. Rogalski, Stuart B. Palmer, Solid State Physics, CRC Press, London, 2000, https://doi.org/10.1201/9781482283037
- James Fargo Balliett, Oceans Environmental Issues, Global Perspectives, Routledge Taylor & Francis Group, London & New York, 2010, https://doi.org/10.4324/9781315702049
- Ben Rogers, The Big Ideas in Physics and How to Teach Them, Routledge, Taylor & Francis Group, London, 2018, https://doi.org/10.4324/9781315305431