Physics (5 cr)
Code: LO00CP74-3004
General information
- Enrollment
-
16.12.2019 - 10.01.2020
Registration for the implementation has ended.
- Timing
-
13.01.2020 - 30.04.2020
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
- Degree programmes
- Degree Programme in Logistics
- Teachers
- Tuomo Väärä
- Teacher in charge
- Tuomo Väärä
- Groups
-
LOKT19SPLogistics, full-time studies
- Course
- LO00CP74
Objective
After completing this course, you are able to
-solve the basic equations between quantities and convert values from one unit to another
- do basic calculations using vector quantities and determine quantities graphically
- use the basic concepts related to the mechanics of solid, liquid and gas in order to theoretically and experimentally solve problems that occur in the fields of physics and technology.
Content
How the distance of travel, speed, acceleration and deceleration is calculated when the vehicle is moving along a straight line?
How the central force, central acceleration and tangential acceleration is calculated when the vehicle is cornering?
How to calculate the frictional force on different surfaces and in different conditions?
How to apply the Newton's laws to moving and non-moving objects?
How to calculate the centre of mass?
How to calculate the effective forces and the required power on a load lifted in an inclined position?
How to calculate the trajectory of particles flying out of conveyors?
How to calculate the gearing ratio?
How to calculate the rotational speed, torque and force of a gear system?
How to calculate the rolling resistance?
How to calculate the forces created by a hydraulic crane?
How to calculate the tyre pressure in varying temperatures?
How to use the Bernoull's law in calculations of flow velocity and pressure?
How is air resistance and its effect on efficiency calculated?
Evaluation
The student is able to
a. use professional vocabulary and concepts proficiently
c. identify interrelated tasks.
e. use the key models, methods, software and techniques of the professional field.
Course material
Kari Suvanto: Tekniikan fysiikka 1. Edita, Luvut 1 – 13 soveltuvin osin.
Study forms and methods
Scheduled track:
You will attend teaching and guidance sessions as specified in the schedule.
Blended track:
Discussion with the teacher and, where appropriate, PSP-planning with your own mentor teacher.
Student workload
135 h - lähitunnit
Evaluation scale
1-5