Optics
Informacje ogólne
Kod przedmiotu: | IOEVXCSM-OPTE-23L |
Kod Erasmus / ISCED: | (brak danych) / (brak danych) |
Nazwa przedmiotu: | Optics |
Jednostka: | Instytut Optoelektroniki |
Grupy: | |
Punkty ECTS i inne: |
(brak)
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Język prowadzenia: | angielski |
Forma studiów: | stacjonarne |
Rodzaj studiów: | II stopnia |
Rodzaj przedmiotu: | obowiązkowy |
Forma zajęć liczba godzin/rygor: | (tylko po angielsku) Lec. 32/x, Prac. 16/x, Lab. 12/x, In summa: 60 hours, 4 ECTS |
Bilans ECTS: | (tylko po angielsku) Student's activity/workload in hours 1. Participation in lectures / ..... 2. Participation in laboratories / 3. Participation in practicals / ..... 4. Participation in seminars / ..... 5. Independent study of lecture topics / .... 6. Independent preparation for laboratories I .... 7. Independent preparation for exercises / .... 8. Independent preparation for the seminar / .... 9. Project implementation / 10. Participation in consultations / ..... 11. Preparation for the exam / .... 12. Preparation for passing / .... 13. Participation in the exam / .... Total student workload: ..... hours/...ECTS Classes with teachers (1+2+3+4+9+10+13): .....hours/....ECTS Classes related to scientific activity: .....hours/....ECTS |
Skrócony opis: |
Paraxial geometric optics |
Pełny opis: |
(tylko po angielsku) Lectures 1. Tematy kolejnych zajęć / liczba godzin / krótki opis treści zajęć Practicals 2. Tematy kolejnych zajęć / liczba godzin / krótki opis treści zaję Laboratories 3. Tematy kolejnych zajęć / liczba godzin / krótki opis treści zajęć |
Literatura: |
(tylko po angielsku) Primary reading list: autor, tytuł, wydawnictwo, rok wydania Supplementary reading list: autor, tytuł, wydawnictwo, rok wydania |
Efekty uczenia się: |
(tylko po angielsku) >>Efekty kierunkowe Z PROGRAMU STUDIÓW US nr 97/WAT/2021 z dnia 21 grudnia 2021 r. - proszę zmodyfikować do PRZEDMIOTOWYCH << przy zatwierdzaniu usunąć ten wiersz bardzo proszę KD IOE W1 / has an extended and theoretically supported knowledge about the range of electromagnetic fields and waves and wave propagation as well as knowledge required for understanding of generation, modulation and detection and demodulation of optical signals / K_W17 W2 / has an extended knowledge of optics and optoelectronic materials science and can use it to analyze and to design optical systems in optoelectronic equipment / K_W24 W3 / has an extended knowledge of detection and analysis of optical signals and can use it in such domains of optoelectronics like fibre optics technology, optoelectronic sensors, thermal imaging and infrared technology / K_W26 U1 / may evaluate the utility and the possibility of use of new achievements (techniques and technology) in the field of optoelectronics / K_U10 U2 / may perform a critical analysis of and evaluate – especially in connection with optoelectronics – the existing technical solutions, including, in particular, equipment, objects, systems, processes and services. He/She may propose improvements of existing technical solutions. / K_U11 U3 / may proceed with the identification and formulation of the specification of complex engineering, characteristic for optoelectronics, including their non technical aspects / K_U12 U4 / may evaluate the utility of methods and tools serving the solving of engineering tool characteristics, including limitations of those methods and tools; may – while applying such new methods in new conceptual ways – solve complex engineering tasks, characteristic in optoelectronics, including non typical tasks and tasks comprising a research component K_U13 |
Metody i kryteria oceniania: |
(tylko po angielsku) Credit for the course is awarded on the basis of: examination, subject assessment. Practicals are assessed on the basis of: Laboratories are assessed on the basis of: The exam/credit assessment is conducted in the form of: The condition for admission to the exam/pass is: The achievement of the effect ... ..... - is verified. Achieving the effect ... ..... - is tested Very good grade is awarded to the student who has achieved the expected learning outcomes at the level of 91-100%. Good plus grade is awarded to the student who has achieved the expected learning outcomes at the level of 81-90%. Good grade is awarded to the student who has achieved the expected learning outcomes at the level of 71-80%. Sufficient plus grade is awarded to the student who has achieved the expected learning outcomes at the level of 61-70%. Sufficient grade is awarded to the student who has achieved the expected learning outcomes at the level of 51-60%. Insufficient grade is awarded to the student who has achieved the expected learning outcomes at the level equal or lower than 50%. General credited grade is awarded to the student who has achieved the expected learning outcomes at the level higher than 50%. General non-credited grade is awarded to the student who has achieved the expected learning outcomes at the level equal or lower than 50%. |
Właścicielem praw autorskich jest Wojskowa Akademia Techniczna.