Electromagnetism (5 cr)

Code: R504TL119-3007

General information

Enrollment: 24.03.2025 - 22.09.2025; Registration for the implementation has begun.

Timing: 23.09.2025 - 05.12.2025; The implementation has not yet started.

Number of ECTS credits allocated: 5 cr

Local portion: 5 cr

Mode of delivery: Contact learning

Unit: Bachelor of Engineering, Information Technology

Teaching languages: English

Seats: 0 - 30

Degree programmes: Degree Programme in Information and Communication Technology; Machine Learning and Data Engineering

Teachers: Ari Karjalainen

Teacher in charge: Ari Karjalainen

Groups: R54D24S
Bachelor of Engineering, Machine Learning and Data Engineering (full time studies), 2024

Course: R504TL119

Evaluation scale

H-5

Content scheduling

Weekly lectures and exercises, otherwise at your own pace.

Objective

The student knows the components of circuits and is able to analyze and calculate the currents and voltages of simple DC and AC circuits. He understands the meaning and purpose of different components in circuits. The student is able to form appropriate circuits for electronic connections and to simulate connections with a computer-based circuit simulator program.

Content

- Electromagnetic induction
- Power
- Voltage
- Circuits
- Circuit components (voltage sources, resistors, capacitors and inductors)
- RLC circuits, simple filters
- Alternating current
- Circuit simulation and simulation tools

Location and time

Theory class according to the time schedule, participation in classes is monitored.

Materials

The learning material and literature are explained in Moodle.

Teaching methods

Theory lectures 2h/week for the whole group and calculation exercises 2h/week in half groups. In addition to these, the student must complete the assignments given in Moodle, based on which the course is evaluated.

Employer connections

No.

Exam schedules

The course can be renewed on the official renewal days with an exam.

International connections

No.

Completion alternatives

The course can be completed independently in Moodle without attending classes. Instructions in the course's Moodle mode.

Student workload

According to the time schedule, participation in lectures is not mandatory. Moodle tasks can be done at your own pace during implementation.

Assessment criteria, satisfactory (1)

Assessment criteria, good (3)

The student is familiar with the basics of circuits and related laws such as Ohm's law and Kirchfoff's laws.
The student understands the purpose of circuit components and is able to solve complex circuits with a simulation tool and simple circuits with mathematical methods based on Ohm's and Kirchoff's laws.
The student knows the structures of basic filters and is able to simulate their operation with a simulation tool,

Assessment criteria, excellent (5)

The student will understand and apply the basics of circuits and related laws such as Ohm’s Law and Kirchfoff’s Laws. The student understands the purpose of circuit components and is able to solve complex circuits with a simulation tool and mathematical methods based on Ohm's and Kirchoff's laws.
The student knows and understands the structures and operation of basic filters and is able to design and simulate filters that meet the set requirements with a simulation tool.