Engineering physics of logistics (5 cr)

Code: LO00EN59-3007

General information

Enrollment: 06.11.2023 - 17.11.2023
Registration for the implementation has ended.

Timing: 01.01.2024 - 30.04.2024
Implementation has ended.

Number of ECTS credits allocated: 5 cr

Local portion: 5 cr

Mode of delivery: Contact learning

Unit: Department of Logistics and Marine Technology

Campus: Kotka Campus

Teaching languages: Finnish

Seats: 20 - 40

Degree programmes: Degree Programme in Logistics

Teachers: Antti Laakso

Teacher in charge: Antti Laakso

Groups: LOKT22SP
Logistics, full-time studies

Course: LO00EN59

Realization has 3 reservations. Total duration of reservations is 7 h 0 min.

Time	Topic	Location
Wed 10.04.2024 time 12:00 - 14:00 (2 h 0 min)	Logistiikan insinöörifysiikka LO00EN59-3007	B4006 Teorialuokka, 53
Wed 17.04.2024 time 11:45 - 13:45 (2 h 0 min)	Logistiikan insinöörifysiikka LO00EN59-3007	B4006 Teorialuokka, 53
Fri 26.04.2024 time 12:15 - 15:15 (3 h 0 min)	Tentti: Logistiikan insinöörifysiikka LO00EN59-3007	C1025 Byod-/teorialuokka, 44

Changes to reservations may be possible.

Objective

After completing this course, you are able to
• form and solve equations between quantities
• use the concepts concerning fluid and gas mechanics, thermodynamics and DC and AC circuits in solving physical and technical problems
• apply your knowledge of logistics physics in your studies and work
• use your knowledge of logistics physics to observe the developments in your professional field and introduce new applications.

Content

• How to apply the laws of fluid statics and dynamics in order to solve problems related to pressure and flow?
• How to apply the rules of thermodynamics in order to solve problems related to thermal expansion, thermal energy and heat transfer?
• How to apply the ideal gas law to calculate gas state changes and humidity of air?
• What is the principle of a thermodynamic machine and how is the performance of a thermodynamic machine calculated?
• How to calculate DC and AC circuits in electric systems?
• How to apply other phenomena of physics to logistics?

Course material

Kari Suvanto: Tekniikan fysiikka 1
Kari Suvanto, Tekniikan fysiikka 2

Luentokalvot, -muistiinpanot ja laskuharjoitukset.

Study forms and methods

Tentti.

RDI and work-related cooperation

Opintojaksoon ei sisälly TKI- ja työelämäyhteistyötä.

International cooperation

Opintojaksoon ei sisälly kansainvälistä yhteistyötä.

Student workload

5 op

Evaluation scale

1-5

Assessment methods and criteria

Kurssilla hyväksyttävästi suoritettavat laskuharjoitukset ja välikokeet tai tentti.

Qualifications

Suositellaan Logistiikan fysiikka ja kemia -opintojakson suorittamista