Oscillations and Wave Mechanics, Atom and Nuclear Physics (3 cr)
Code: 5N00EI70-3061
General information
- Enrolment period
- 02.12.2023 - 08.01.2024
- Registration for the implementation has ended.
- Timing
- 01.01.2024 - 07.04.2024
- Implementation has ended.
- Credits
- 3 cr
- Local portion
- 3 cr
- Mode of delivery
- Contact learning
- Unit
- TAMK Mathematics and Physics
- Campus
- TAMK Main Campus
- Teaching languages
- Finnish
- Degree programmes
- Degree Programme in Vehicle Engineering
Objectives (course unit)
The student
- can use the basic laws of oscillation, wave and sound physics, and atom- and nuclear physics and apply observations of phenomena
- can reduce the problem into quantities and equations connected to various kind of oscillation and wave mechanics, atom and nuclear physics, and electromagnetic waves
- can solve and state arguments for problems based on the scientific and technical point of view
- knows the technical applications connected to electromagnetic waves
Content (course unit)
The oscillation modes and mathematical modeling
Wave and sound physics
Electromagnetic radiation
Structure of atom and energy levels
Basics of nuclear physics
Radioactivity and nuclear power
Prerequisites (course unit)
Mechanics, Thermal physics, Flow mechanics, Electrostatics, electrical circuits and magnetism
Assessment criteria, satisfactory (1-2) (course unit)
Student is able to use correct quantities and units for the topics, is able to analyze phenomena quantitatively and solve simple problems, which resemble examples given on the course.
Assessment criteria, good (3-4) (course unit)
In addition to exemplary problems, student is able to utilize the basic laws of oscillation, wave motion, atomic physics and nuclear physics in new situations and problems and is able to justify the solutions.
Assessment criteria, excellent (5) (course unit)
Student has a comprehensive understanding of the basic laws of oscillation, wave motion, atomic physics and nuclear physics. Student understands the interrelations between the laws and is able to use them in problem solving. Student is fluent in solving problems and can justify the solutions.
Location and time
Lukujärjestyksen mukaisesti lähiopetusta.
Exam schedules
Ei ole.
Evaluation methods and criteria
Arvosana määräytyy harjoitustehtävien perusteella. Viikkotehtävien maksimipistemäärä on 50 ja haastetehtävien maksimipistemäärä on 50. Opintojakson arvosanojen pisterajat ovat
90 = 5
80 = 4
65 = 3
50 = 2
40 = 1
Assessment scale
0-5
Teaching methods
Opetuskeskustelu
Harjoitustehtävät
Demonstraatiot
Learning materials
Momentti 2 insinöörifysiikka, Otava.
Opettajan tuntimateriaali.
Verkkolähteet.
Student workload
24 tuntia lähiopetusta, 30 tuntia itsenäistä työskentelyä.
Content scheduling
Mekaaninen värähtely 30 tuntia
Aaltoliike ja äänioppi 24 tuntia.
Completion alternatives
Ei ole.
Practical training and working life cooperation
Ei ole.
International connections
Ei ole.
Further information
Opintojaksolla ei käsitellä lainkaan modernin fysiikan osuutta.
Opintojaksolla ei ole tukea etäopiskeluun. Jos opiskelija ei osallistu lähiopetukseen, hänen on oltava valmis itsenäisesti selvittämään opintojakson sisältöön liittyvät asiat.