Phys2 Energy (3 cr)
Code: TZLF2300-3051
General information
Enrollment
01.08.2022 - 25.08.2022
Timing
26.08.2022 - 31.12.2022
Number of ECTS credits allocated
3 op
Mode of delivery
Face-to-face
Unit
School of Technology
Campus
Main Campus
Teaching languages
- English
- Finnish
Seats
0 - 60
Degree programmes
- Bachelor's Degree Programme in Logistics
- Bachelor's Degree Programme in Construction and Civil Engineering
- Bachelor's Degree Programme in Energy and Environmental Technology
- Bachelor's Degree Programme in Electrical and Automation Engineering
- Bachelor's Degree Programme in Mechanical Engineering
- Bachelor's Degree Programme in Information and Communications Technology
- Bachelor's Degree Programme in Purchasing and Logistics Engineering
- Bachelor's Degree Programme in Information and Communications Technology
Teachers
- Jaakko Leppä-aho
Teacher in charge
Jaakko Leppä-aho
Groups
-
TKN21SAKonetekniikka (AMK)
-
TKN21SBKonetekniikka (AMK)
-
TKN21SMKonetekniikka
Objectives
Purpose:
During the course, you will learn the physic laws of conservation and the basics of oscillation. In addition, you will learn about physical measurements and the basics of error analysis. After the course, you will be able to apply this information to mathematics as a help in the study modules that you will later study in the degree program.
EUR-ACE Competences:
Knowledge and understanding
Learning outcomes:
After completing this course, you will know the basic principles of work and energy in both linear motion and rotational motion.You will understand the laws of oscillation and, with your knowledge, understand the basic legalities and problems dealing with oscillation in your own profession.
Content
In this course, you will learn the fundamental conservation laws of physics and the basics of oscillatory motion, as well as the basics of physical measurements and error analysis. After the course, you will be able to apply this knowledge through mathematics in your future studies. You will understand the basic principles of work and energy in rectilinear and rotational motion and the laws of oscillation. This course will give you the skills to solve problems related to vibration in your field of work and to apply what you learn in practice.
Linear momentum and impulse, elastic and inelastic collisions, angular momentum, conservation of mechanical energy, mechanical work, power and efficiency, kinetic energy, gravitational potential energy, elastic potential energy, simple harmonic motion, damped oscillation
Learning materials and recommended literature
Material made by the teacher.
Textbook: Knight, Randal D. Physics for Scientists and Engineers. Pearson International edition. 2nd edition.
Teaching methods
-lectures
-distance learning
-small group learning
-exercises
-learning tasks
Exam dates and retake possibilities
The possible date and method of the exam will be announced in the course opening information.
Alternative completion methods
The admission procedures are described in the degree rule and the study guide. The teacher of the course will give you more information on possible specific course practices.
Student workload
One credit corresponds to an average of 27 hours of work, which means that the load of three credits is approximately 81 hours. The load is distributed in different ways depending on the course implementation.
Further information for students
The course is assessed on the basis of a two-part (different levels) final exam.
Open AMK: 5
Evaluation scale
0-5
Evaluation criteria, satisfactory (1-2)
Sufficient 1
You are able to recognize phenomena and the models attached to the field of the course.
You can solve simple course related problems. You can read different kinds of tables and graphs to get the right information. Your calculations may have some mistakes.
Satisfactory 2
You are able to understand phenomena and the models attached to the field of the course.
You can solve basic problems with the help of examples. You can read different kinds of tables and graphs to get the right information. Your calculations may have some mistakes.
Evaluation criteria, good (3-4)
Good 3
You are able to understand phenomena and the models attached to the field of the course.
You can solve basic problems. You can read different kinds of tables and graphs and you are also able to produce them yourself. Your calculations may have some mistakes.
Very good 4
You are able to understand phenomena and the models attached to the field of the course.
You can solve challenging problems. You can read different kinds of tables and graphs and you are able to produce them yourself. You are also able to evaluate the assumptions and applicabilities of the models you are using. Your calculations are mainly right.
Evaluation criteria, excellent (5)
Excellent 5
You are able to understand phenomena and the models attached to the field of the course.
You can solve challenging problems. You can read different kinds of tables and graphs and you are able to make make them yourself. You are also able to evaluate the assumptions and applicabilities of the models you are using. You can apply your knowledge to new situations. Your calculations are right but may have some careless errors.
Prerequisites
The course completion requires abilities to use basic functions and solve groups of equations. The ability to use coordinate systems is needed for solving motion and force related problems.