Project in Electrical and Automation Engineering (15 cr)
Code: TX00CY32-3037
General information
- Enrollment
-
27.11.2023 - 31.12.2023
Registration for the implementation has ended.
- Timing
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18.03.2024 - 12.05.2024
Implementation has ended.
- Number of ECTS credits allocated
- 15 cr
- Mode of delivery
- On-campus
- Unit
- (2019-2024) School of Smart and Clean Solutions
- Campus
- Leiritie 1
- Teaching languages
- Finnish
- Seats
- 0 - 80
- Degree programmes
- Electrical and Automation Engineering
- Teacher in charge
- Raisa Kallio
- Groups
-
TXJ23S2Sähkö- ja automaatiotekniikan tutkinto-ohjelma monimuoto
- Course
- TX00CY32
Implementation has 30 reservations. Total duration of reservations is 66 h 0 min.
| Time | Topic | Location |
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Tue 19.03.2024 time 17:00 - 18:30 (1 h 30 min) |
Sähkö- ja automaatiotekniikan projekti TX00CY32-3037 |
Zoom English
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Tue 19.03.2024 time 18:45 - 20:15 (1 h 30 min) |
Sähkö- ja automaatiotekniikan projekti TX00CY32-3037 |
Online
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Wed 20.03.2024 time 17:00 - 20:15 (3 h 15 min) |
Sähkö- ja automaatiotekniikan projekti TX00CY32-3037 |
Online
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Thu 21.03.2024 time 17:00 - 20:15 (3 h 15 min) |
Sähkö- ja automaatiotekniikan projekti TX00CY32-3037 |
MMC232
IT-Tila, CAD
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Tue 26.03.2024 time 17:00 - 18:30 (1 h 30 min) |
Sähkö- ja automaatiotekniikan projekti TX00CY32-3037 |
Online
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Tue 26.03.2024 time 18:45 - 20:15 (1 h 30 min) |
Sähkö- ja automaatiotekniikan projekti TX00CY32-3037 |
Online
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Wed 27.03.2024 time 17:00 - 20:15 (3 h 15 min) |
Sähkö- ja automaatiotekniikan projekti TX00CY32-3037 |
Online
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Thu 28.03.2024 time 17:00 - 20:15 (3 h 15 min) |
Sähkö- ja automaatiotekniikan projekti TX00CY32-3037 |
MMC232
IT-Tila, CAD
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Tue 02.04.2024 time 17:00 - 18:30 (1 h 30 min) |
Sähkö- ja automaatiotekniikan projekti TX00CY32-3037 |
Online
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Tue 02.04.2024 time 18:45 - 20:15 (1 h 30 min) |
Sähkö- ja automaatiotekniikan projekti TX00CY32-3037 |
Online
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Wed 03.04.2024 time 17:00 - 20:15 (3 h 15 min) |
Sähkö- ja automaatiotekniikan projekti TX00CY32-3037 |
Online
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Thu 04.04.2024 time 17:00 - 20:15 (3 h 15 min) |
Myös Teams-yhteydellä |
MMC232
IT-Tila, CAD
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Tue 09.04.2024 time 17:00 - 18:30 (1 h 30 min) |
Sähkö- ja automaatiotekniikan projekti TX00CY32-3037 |
Online
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Tue 09.04.2024 time 18:45 - 20:15 (1 h 30 min) |
Sähkö- ja automaatiotekniikan projekti TX00CY32-3037 |
Online
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Thu 11.04.2024 time 17:00 - 20:15 (3 h 15 min) |
Myös Teams-yhteydellä |
MMC232
IT-Tila, CAD
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Mon 15.04.2024 time 17:00 - 18:30 (1 h 30 min) |
Sähkö- ja automaatiotekniikan projekti TX00CY32-3037 |
Online
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Tue 16.04.2024 time 17:00 - 18:30 (1 h 30 min) |
Sähkö- ja automaatiotekniikan projekti TX00CY32-3037 |
Online
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Tue 16.04.2024 time 18:45 - 20:15 (1 h 30 min) |
Sähkö- ja automaatiotekniikan projekti TX00CY32-3037 |
Online
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Wed 17.04.2024 time 17:00 - 20:15 (3 h 15 min) |
Sähkö- ja automaatiotekniikan projekti TX00CY32-3037 |
Online
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Tue 23.04.2024 time 17:00 - 18:30 (1 h 30 min) |
Sähkö- ja automaatiotekniikan projekti TX00CY32-3037 |
Online
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Tue 23.04.2024 time 18:45 - 20:15 (1 h 30 min) |
Sähkö- ja automaatiotekniikan projekti TX00CY32-3037 |
Online
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Wed 24.04.2024 time 17:00 - 20:15 (3 h 15 min) |
Sähkö- ja automaatiotekniikan projekti TX00CY32-3037 |
Online
|
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Thu 25.04.2024 time 17:00 - 20:15 (3 h 15 min) |
Myös Teams-yhteydellä |
MMC232
IT-Tila, CAD
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Mon 29.04.2024 time 17:00 - 18:30 (1 h 30 min) |
Sähkö- ja automaatiotekniikan projekti TX00CY32-3037 |
Online
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Mon 29.04.2024 time 18:45 - 20:15 (1 h 30 min) |
Sähkö- ja automaatiotekniikan projekti TX00CY32-3037 |
Online
|
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Thu 02.05.2024 time 17:00 - 20:15 (3 h 15 min) |
Myös Teams-yhteydellä |
MMC232
IT-Tila, CAD
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Mon 06.05.2024 time 17:00 - 18:30 (1 h 30 min) |
Sähkö- ja automaatiotekniikan projekti TX00CY32-3037 |
Online
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Mon 06.05.2024 time 18:45 - 20:15 (1 h 30 min) |
Sähkö- ja automaatiotekniikan projekti TX00CY32-3037 |
Online
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Tue 07.05.2024 time 17:00 - 18:30 (1 h 30 min) |
Sähkö- ja automaatiotekniikan projekti TX00CY32-3037 |
MMC345
Oppimistila
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Wed 08.05.2024 time 17:00 - 20:15 (3 h 15 min) |
Sähkö- ja automaatiotekniikan projekti TX00CY32-3037 |
Online
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Objective
- The student is able to use differential calculus in his or her subsequent studies in physics and professional studies.
- The student is familiar with the magnetism and electromagnetic induction.
- The student is familiar with various discourse situations and is able to modify the language use as may be needed in oral and written reporting.
- The student perform a computer aided design project in his/her own field.
Content
1. Magnetism
2. Electromagnetic induction
3. Differential calculus and introduction to integral calculus
4. Computer-aided design
5. Project
6. English language and communication for technology
Materials
Physics: Teacher's lecture notes. Additionally students can use applied university/university level physics text book.
Teaching methods
Distance lessons, laboratory assignments
Employer connections
N/A
Exam schedules
Physics: no exams
International connections
N/A
Further information
Tämän opetuksena toteutettavan opintojakson osuuksien etäopetustilanteet saatetaan tallentaa joustavaa opiskelua varten. Mikäli et halua olla mukana tallenteella, ilmoita tästä kunkin osuuden opettajalle opintojakson ensimmäisellä opetuskerralla. Osuuksien opetustilanteiden tallenteet ovat nähtävissä opintojakson ajan opintojakson osuuden käyttämällä oppimisalustalla.
Tietosuojaseloste
Kuvaus opintojaksolla tapahtuvasta henkilötietojen käsittelystä löytyy Metropolian julkisilla verkkosivuilla julkaistusta Metropolian opiskelija- ja opintotietorekisterin tietosuojaselosteesta
Tietosuojaseloste: Metropolian opiskelija ja opintotietorekisteri
Evaluation scale
0-5
Assessment criteria, satisfactory (1)
The student has achieved the course objectives fairly. The student will be able to identify, define and use the course subject area’s concepts and models. The student understands the criteria and principles of the expertise development. The student has completed the required learning exercises in minimum requirement level. His/her competences have developed in a way that he/she may complete the remaining studies and finally work in a suitable job position related to this field.
Assessment criteria, good (3)
The student has achieved the course objectives well, even though the knowledge and skills need improvement on some areas. The student has completed the required learning exercises in good or satisfactory level. The student is able to define the course concepts and models and is able to justify the analysis. The student is able to apply their knowledge in study and work situations. The student understands the importance of expertise in the field and is able to analyze his/her own expertise.
Assessment criteria, excellent (5)
The student has achieved the objectives of the course with excellent marks. The student master commendably the course subject area’s concepts and models. The student has completed the required learning exercises in good or excellent level. The student is able to make justified and fluent analysis and to present concrete development measures. The student is well prepared to apply their knowledge study and work situations. Students are able to analyze the expertise and the evolvement of their own expertise.
Assessment criteria, approved/failed
The student has achieved the course objectives fairly. The student will be able to identify, define and use the course subject area’s concepts and models. The student understands the criteria and principles of the expertise development. The student has completed the required learning exercises in minimum requirement level. His/her competences have developed in a way that he/she may complete the remaining studies and finally work in a suitable job position related to this field.
Assessment methods and criteria
Physics: 30 / 150 p. Weekly homework problems. Minimum 6 points.
Further information
English language and communication content:
- Professional organisations, work environments, duties, processes and tools
- Training and career planning in your own professional field
- Introduction to key concepts and terms used in Electrical and Automation Engineering in texts appearing in the field
- Introduction to the field's key international and international-at-home interaction situations: individual and group communication
- Self-assessment of language and communication skills, and development of your own learning strategies
Objective
- The student is able to use differential calculus in his or her subsequent studies in physics and professional studies.
- The student is familiar with the magnetism and electromagnetic induction.
- The student is familiar with various discourse situations and is able to modify the language use as may be needed in oral and written reporting.
- The student perform a computer aided design project in his/her own field.
Content
1. Magnetism
2. Electromagnetic induction
3. Differential calculus and introduction to integral calculus
4. Computer-aided design
5. Project
6. English language and communication for technology
Further information
English language and communication content:
- Professional organisations, work environments, duties, processes and tools
- Training and career planning in your own professional field
- Introduction to key concepts and terms used in Electrical and Automation Engineering in texts appearing in the field
- Introduction to the field's key international and international-at-home interaction situations: individual and group communication
- Self-assessment of language and communication skills, and development of your own learning strategies