Engineering Physics for Laboratory Engineering (3 cr)
Code: 5N00HC19-3001
General information
Enrolment period
22.11.2024 - 06.01.2025
Timing
01.01.2025 - 04.04.2025
Credits
3 op
Mode of delivery
Contact teaching
Unit
Physics
Campus
TAMK Main Campus
Teaching languages
- Finnish
Degree programmes
- Degree Programme in Laboratory Engineering
Teachers
- Reijo Manninen
Person in charge
Reijo Manninen
Groups
-
24LATE
Objectives (course unit)
Upon completion of this course, you will have learned the fundamentals of the physics underlying laboratory techniques, with topics including oscillations, wave motion, light, and the flow of liquids and gases.
After the course, you will:
Be familiar with the basic models and concepts of oscillatory motion and their applications.
Understand the modeling of wave motion and the behavior of waves at the interface of media.
Know the basic models related to light in terms of refraction, total reflection, and optics.
Be familiar with the basic models of light spectrum formation and their applications.
Understand the basic concepts related to the mechanics of liquids and gases and the fundamentals of modeling flowing material.
And you will be able to apply the above in solving examples and problems in the field of technology, as well as justify the solutions you have made.
Content (course unit)
Here is the translation to English:
Basic concepts of oscillatory motion, modeling of undamped, damped, and forced oscillations.
Models and basic concepts of wave motion, behavior of waves at the interface of materials.
Refraction and total reflection of light, fundamentals of optics.
Light as a wave motion, spectrum, quantization of photon energy.
Fundamentals of fluid and gas mechanics, basic models of flow.
Assessment criteria, satisfactory (1-2) (course unit)
Student:
• knows objects and phenomena related to the topic
• partially knows how to relate objects and phenomena related to the topic to technology and everyday applications
• knows the quantities related to the objects and phenomena of the subject area, the related units and the laws between the quantities only in familiar, exemplary situations.
• has a basic idea of the phenomena related to the subject area of insufficient qualitative level
• Recognizes the basic phenomena of physics appearing in problems related to the topic, the whole is partly unstructured and incomplete.
• can describe on a qualitative level some of the basic principles of solving problems related to the topic and makes his solutions as copies of previously studied examples.
• recognize, with support or based on a previous example, the quantities related to the problems and their preservation or change
• the selection of the laws needed to solve the problems is based on support or ready-made example models. Self-directed selection of models is uncertain and partly random.
• knows how to solve computational problems in situations that are, for example, familiar
• can sometimes state the solutions of computational problems with suitable accuracy of presentation
• the student has challenges justifying the choices he has made orally or in writing
• there are challenges in assessing the correctness and reliability of computational solutions.
• Works in the measurement related to the topic as part of a group
Assessment criteria, good (3-4) (course unit)
• knows the objects and phenomena related to the topic
• knows how to connect objects and phenomena related to the topic to technology and everyday applications
• knows the quantities related to the objects and phenomena of the topic, their units and the basic laws of physics between the quantities
• have a basic idea of the right qualitative level about the phenomena related to the topic
• can identify the basic phenomena of physics that are relevant to the solution of the problems in the problems related to the topic
• can describe on a qualitative level the basic principles of solving problems related to the subject area and justify the choices they have made related to solving problems
• identify the quantities related to problems and their preservation or change
• knows how to choose the laws needed to solve problems
• Knows the limitations of the laws he uses
• knows how to solve computational problems by making good use of the laws of his choice
• knows how to state the solutions of computational problems with appropriate accuracy of presentation
• can justify the choices he made orally or in writing
• knows how to evaluate the reasonableness, correctness and reliability of the calculated solutions he has made
• can carry out a simple measurement related to the topic and interpret the results obtained through the quantities and basic laws they have adopted
Assessment criteria, excellent (5) (course unit)
• knows the objects and phenomena related to the subject area and their connection to other subject areas
• knows how to comprehensively relate objects and phenomena related to the topic to technology and everyday applications
• thoroughly knows the quantities related to the objects and phenomena of the topic, their units and the basic laws of physics between the quantities and knows their limitations
• has a basic idea of the right qualitative level about the phenomena related to the topic and knows how to express it to others
• can identify the basic phenomena of physics that are relevant to the solution of the problems in the problems related to the topic
• can describe on a qualitative level the basic principles of solving problems related to the subject area and justify the choices they have made related to solving problems
• identify the quantities related to the problems in a broad area, and their preservation or change
• knows how to choose the laws needed to solve problems
• Knows the limitations of the laws he uses
• knows how to solve computational problems by making good use of the laws of his choice
• knows how to state the solutions of computational problems with appropriate accuracy of presentation
• can justify the choices he made orally or in writing
• can reasonably assess the reasonableness, correctness and reliability of the calculated solutions he has made
• can implement and, if necessary, plan a simple measurement related to the topic and interpret the results obtained through the quantities and basic laws they have adopted.
Assessment scale
0-5