FYS-1286 Physics III, 5 cr
Person responsible
Jouko Nieminen
Lessons
Implementation | Period | Person responsible | Requirements |
FYS-1286 2017-01 | 3 |
Jouko Nieminen |
Learning Outcomes
After passing the course, the student is able to demonstrate an understanding of scientific concepts, definitions, principles, and laws related to the subject area. The student is able to solve problems related to the subject area by: * analysing them graphically. * deriving appropriate equations from relevant definitions and principles, and explaining their applicability to the given situation. * applying university level mathematical techniques. * evaluating results and their reliability. The course includes laboratory experiments. After passing the course, the student is able to: * describe the connection between experiments and the theory presented at the lectures. * give sound qualitative descriptions of natural phenomena and technical applications. * perform guided scientific experiments, and to analyze and report their results and reliability.
Content
Content | Core content | Complementary knowledge | Specialist knowledge |
1. | Electric currents: current, resistance, EMF, circuits | ||
2. | Electric fields: charge, electric fields, potential, capacitance | ||
3. | Magnetic fields: sources of fields, flux density, magnetic materials | ||
4. | Lorentz force | ||
5. | Electromagnetic induction: induction, inductance, mutual inductance |
Instructions for students on how to achieve the learning outcomes
The total mark is determined based on a final exam, laboratory works, and the student¿s activity in exercise classes. The relative weights of the theory part (exam and exercise classes) and laboratory works are 90% and 10%, respectively. Laboratory reports, written by each pair of students after the experiments, will be graded on a 5 point scale. The reports are required to meet the criteria of scientific reports. Results and the analysis methods used, as well the structure, language, and style of the reports are assessed. Instructions how to achieve the learning outcomes of the laboratory assignments can be found from the Moodle page of the course.
Assessment scale:
Numerical evaluation scale (0-5)
Study material
Type | Name | Author | ISBN | URL | Additional information | Examination material |
Book | Understanding Physics, 2nd ed. | Mansfield, M. ja O'Sullivan, C. | 978-0-470-74637-0 | Yes |
Correspondence of content
There is no equivalence with any other courses