Phys3 Fluids and heatLaajuus (3 cr)
Code: TZLF3300
Credits
3 op
Teaching language
- Finnish
- English
Responsible person
- Ville Kotimäki, TER, TKN
- Pertti Ahonen, TRY
- Tuomas Huopana, TSA, TAR
Objective
The purpose of the course
You will learn the basics of fluid mechanics and thermodynamics which are required to understand different flow and heat transfer phenomena. In addition, you will learn logical problem solving.
Eur-ACE competences
Knowledge and understanding: You obtain the basic knowledge of fluid mechanics and thermodynamics for the field of engineering.
Multidisciplinary competences: You are able to apply the physical problem solving strategies in other fields of interest.
Communication and team-working: You will learn to communicate technical information, ideas and solutions in the engineering community.
Learning outcome
After completing this course you are able to identify the basic principles of the fluid mechanics, the effect of the temperature and the basics of heat transfer mechanisms.
Content
The course consists of the following themes
Density, pressure, basics of hydraulics, hydrostatic pressure, buoyancy, surface tension, volume flow, mass flow, continuity equation, Bernoulli equation, viscosity, temperature, thermal expansion, thermal stress, heat, specific heat, phase changes, thermal conduction, convection, thermal radiation, the basics of equations of state and air humidity.
Qualifications
The basic knowledge of mechanics, elementary functions and equation solving are required.
Assessment criteria, satisfactory (1)
Grade 1
You are able to identify the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve simple problems related to the course subjects. You are able to read charts and tables. Your solutions may contain some mistakes.
Grade 2
You are able to identify the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve basic problems related to the course subjects by using examples. You are able to read charts and tables. Your solutions may contain some mistakes.
Assessment criteria, good (3)
Grade 3
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve basic problems related to the course subjects. You are able to read and produce charts and tables. Your solutions may contain some mistakes.
Grade 4
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve challenging problems related to the course subjects. You are able to read and produce charts and tables. Most of your solutions don't have any mistakes.
Assessment criteria, excellent (5)
Grade 5
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve challenging problems related to the course subjects. You are able to read and produce charts and tables. Are are able to estimate the suitability of the used models for the problems at hand. Your solutions contain only few small careless mistakes.
Further information
-
Enrollment
18.11.2024 - 09.01.2025
Timing
13.01.2025 - 18.05.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Face-to-face
Unit
School of Technology
Campus
Main Campus
Teaching languages
- Finnish
Seats
20 - 40
Degree programmes
- 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
Teachers
- Ville Kotimäki
Groups
-
TER24S1Energia- ja ympäristötekniikka (AMK)
-
ZJATER24S1Avoin amk, Energia- ja ympäristötekniikka , päivä
Objectives
The purpose of the course
You will learn the basics of fluid mechanics and thermodynamics which are required to understand different flow and heat transfer phenomena. In addition, you will learn logical problem solving.
Eur-ACE competences
Knowledge and understanding: You obtain the basic knowledge of fluid mechanics and thermodynamics for the field of engineering.
Multidisciplinary competences: You are able to apply the physical problem solving strategies in other fields of interest.
Communication and team-working: You will learn to communicate technical information, ideas and solutions in the engineering community.
Learning outcome
After completing this course you are able to identify the basic principles of the fluid mechanics, the effect of the temperature and the basics of heat transfer mechanisms.
Content
The course consists of the following themes
Density, pressure, basics of hydraulics, hydrostatic pressure, buoyancy, surface tension, volume flow, mass flow, continuity equation, Bernoulli equation, viscosity, temperature, thermal expansion, thermal stress, heat, specific heat, phase changes, thermal conduction, convection, thermal radiation, the basics of equations of state and air humidity.
Learning materials and recommended literature
Kurssilla käytetään opettajan tekemiä videoita sekä pdf-muotoista materiaaleja.
Seuraavat kirjat sisältävät kurssilla käsiteltäviä aiheita:
1.) Young, Hugh D.; Freedman, Roger A. University Physics with Modern Physics. International edition.
2.) Knight, Randal D. Physics for Scientists and Engineers. Pearson International edition.
3.) Suvanto, K. Tekniikan Fysiikka 1. Edita.
Mitkä tahansa painokset kelpaavat.
Teaching methods
Kurssi koostuu perinteisestä luento-opetuksesta, opetusvideoiden katselusta sekä laskuharjoitusten laskemisesta.
Exam dates and retake possibilities
Kurssin tenttiaikataulut ilmoitetaan ensimmäisellä luennolla.
Student workload
38 h kontaktiopetusta.
5 h kokeita
38 h itsenäistä työskentelyä.
Further information for students
Kurssi arvioidaan harjoitustehtävien, kaksiosaisen loppukokeen ja laboratoriotyöstä kirjoitettavan raportin perusteella.
Lisäksi kurssilla on päiväopiskelijoita koskeva läsnäolovelvoite (80% oppitunneista on oltava paikalla).
Opintojakson ensimmäinen tehtävä tulee tehdä kolmen viikon kuluessa toteutuksen alkamisesta. Tehtävän tekemättä jättäneet poistetaan toteutukselta.
Evaluation scale
0-5
Evaluation criteria, satisfactory (1-2)
Grade 1
You are able to identify the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve simple problems related to the course subjects. You are able to read charts and tables. Your solutions may contain some mistakes.
Grade 2
You are able to identify the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve basic problems related to the course subjects by using examples. You are able to read charts and tables. Your solutions may contain some mistakes.
Evaluation criteria, good (3-4)
Grade 3
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve basic problems related to the course subjects. You are able to read and produce charts and tables. Your solutions may contain some mistakes.
Grade 4
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve challenging problems related to the course subjects. You are able to read and produce charts and tables. Most of your solutions don't have any mistakes.
Evaluation criteria, excellent (5)
Grade 5
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve challenging problems related to the course subjects. You are able to read and produce charts and tables. Are are able to estimate the suitability of the used models for the problems at hand. Your solutions contain only few small careless mistakes.
Prerequisites
The basic knowledge of mechanics, elementary functions and equation solving are required.
Further information
-
Enrollment
01.11.2024 - 09.01.2025
Timing
13.01.2025 - 18.05.2025
Number of ECTS credits allocated
3 op
Mode of delivery
Face-to-face
Unit
School of Technology
Campus
Main Campus
Teaching languages
- Finnish
Seats
20 - 40
Degree programmes
- 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
Teachers
- Ville Kotimäki
Groups
-
TER24SMEnergia- ja ympäristötekniikka (AMK)
-
ZJATER24SMAvoin amk, Energia- ja ympäristötekniikka, monimuoto
Objectives
The purpose of the course
You will learn the basics of fluid mechanics and thermodynamics which are required to understand different flow and heat transfer phenomena. In addition, you will learn logical problem solving.
Eur-ACE competences
Knowledge and understanding: You obtain the basic knowledge of fluid mechanics and thermodynamics for the field of engineering.
Multidisciplinary competences: You are able to apply the physical problem solving strategies in other fields of interest.
Communication and team-working: You will learn to communicate technical information, ideas and solutions in the engineering community.
Learning outcome
After completing this course you are able to identify the basic principles of the fluid mechanics, the effect of the temperature and the basics of heat transfer mechanisms.
Content
The course consists of the following themes
Density, pressure, basics of hydraulics, hydrostatic pressure, buoyancy, surface tension, volume flow, mass flow, continuity equation, Bernoulli equation, viscosity, temperature, thermal expansion, thermal stress, heat, specific heat, phase changes, thermal conduction, convection, thermal radiation, the basics of equations of state and air humidity.
Learning materials and recommended literature
Kurssilla käytetään opettajan tekemiä videoita sekä pdf-muotoista materiaaleja.
Seuraavat kirjat sisältävät kurssilla käsiteltäviä aiheita:
1.) Young, Hugh D.; Freedman, Roger A. University Physics with Modern Physics. International edition.
2.) Knight, Randal D. Physics for Scientists and Engineers. Pearson International edition.
3.) Suvanto, K. Tekniikan Fysiikka 1. Edita.
Teaching methods
Kurssi toteutetaan käänteisen luokkahuoneen menetelmällä. Opiskelijat tutustuvat materiaaliin etukäteen ja laskevat harjoitustehtäviä. Tehtäviin saa apua kevään aikana järjestettävillä ohjaustunneilla.
Exam dates and retake possibilities
Kurssin koeaikataulut ilmoitetaan ensimmäisellä luennolla.
Student workload
16 h kontaktiopetusta
5 h loppukoe
60 h itsenäistä opiskelua
Further information for students
Kurssi arvioidaan harjoitustehtävien, kaksiosaisen loppukokeen ja laboratoriotyöstä kirjoitettavan raportin perusteella.
Opintojakson ensimmäinen tehtävä tulee tehdä kolmen viikon kuluessa toteutuksen alkamisesta. Tehtävän tekemättä jättäneet poistetaan toteutukselta.
Evaluation scale
0-5
Evaluation criteria, satisfactory (1-2)
Grade 1
You are able to identify the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve simple problems related to the course subjects. You are able to read charts and tables. Your solutions may contain some mistakes.
Grade 2
You are able to identify the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve basic problems related to the course subjects by using examples. You are able to read charts and tables. Your solutions may contain some mistakes.
Evaluation criteria, good (3-4)
Grade 3
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve basic problems related to the course subjects. You are able to read and produce charts and tables. Your solutions may contain some mistakes.
Grade 4
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve challenging problems related to the course subjects. You are able to read and produce charts and tables. Most of your solutions don't have any mistakes.
Evaluation criteria, excellent (5)
Grade 5
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve challenging problems related to the course subjects. You are able to read and produce charts and tables. Are are able to estimate the suitability of the used models for the problems at hand. Your solutions contain only few small careless mistakes.
Prerequisites
The basic knowledge of mechanics, elementary functions and equation solving are required.
Further information
-
Enrollment
01.08.2024 - 22.08.2024
Timing
21.10.2024 - 18.12.2024
Number of ECTS credits allocated
3 op
Virtual portion
1 op
Mode of delivery
67 % Face-to-face, 33 % Online learning
Unit
School of Technology
Campus
Main Campus
Teaching languages
- Finnish
Seats
20 - 32
Degree programmes
- Bachelor's Degree Programme in Mechanical Engineering
Teachers
- Ville Kotimäki
Groups
-
TKN23SMKonetekniikka (AMK)
Objectives
The purpose of the course
You will learn the basics of fluid mechanics and thermodynamics which are required to understand different flow and heat transfer phenomena. In addition, you will learn logical problem solving.
Eur-ACE competences
Knowledge and understanding: You obtain the basic knowledge of fluid mechanics and thermodynamics for the field of engineering.
Multidisciplinary competences: You are able to apply the physical problem solving strategies in other fields of interest.
Communication and team-working: You will learn to communicate technical information, ideas and solutions in the engineering community.
Learning outcome
After completing this course you are able to identify the basic principles of the fluid mechanics, the effect of the temperature and the basics of heat transfer mechanisms.
Content
The course consists of the following themes
Density, pressure, basics of hydraulics, hydrostatic pressure, buoyancy, surface tension, volume flow, mass flow, continuity equation, Bernoulli equation, viscosity, temperature, thermal expansion, thermal stress, heat, specific heat, phase changes, thermal conduction, convection, thermal radiation, the basics of equations of state and air humidity.
Learning materials and recommended literature
The course uses videos and pdf lecture material.
The following books contain topics covered in the couse:
1.) Young, Hugh D.; Freedman, Roger A. University Physics with Modern Physics. International edition.
2.) Knight, Randal D. Physics for Scientists and Engineers. Pearson International edition.
3.) Suvanto, K. Tekniikan Fysiikka 1. Edita.
Teaching methods
The course uses the flipped classroom method. The students familiarize themselves with the material in advance and the questions arising from the material and exercises are discussed during the teaching sessions.
Exam dates and retake possibilities
The schedule for the exams will be announced during the first lecture.
Student workload
Lectures - 10 h
Final exam - 5 h
Self-study - 66 h
Further information for students
The course is evaluated on the basis of exercises and tests.
The first assignment of the course must be completed within three weeks of the start of course. Those who do not complete the task will be removed from the course.
Evaluation scale
0-5
Evaluation criteria, satisfactory (1-2)
Grade 1
You are able to identify the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve simple problems related to the course subjects. You are able to read charts and tables. Your solutions may contain some mistakes.
Grade 2
You are able to identify the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve basic problems related to the course subjects by using examples. You are able to read charts and tables. Your solutions may contain some mistakes.
Evaluation criteria, good (3-4)
Grade 3
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve basic problems related to the course subjects. You are able to read and produce charts and tables. Your solutions may contain some mistakes.
Grade 4
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve challenging problems related to the course subjects. You are able to read and produce charts and tables. Most of your solutions don't have any mistakes.
Evaluation criteria, excellent (5)
Grade 5
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve challenging problems related to the course subjects. You are able to read and produce charts and tables. Are are able to estimate the suitability of the used models for the problems at hand. Your solutions contain only few small careless mistakes.
Prerequisites
The basic knowledge of mechanics, elementary functions and equation solving are required.
Further information
-
Enrollment
01.08.2024 - 22.08.2024
Timing
26.08.2024 - 13.10.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Face-to-face
Unit
School of Technology
Campus
Main Campus
Teaching languages
- Finnish
Seats
20 - 63
Degree programmes
- Bachelor's Degree Programme in Construction and Civil Engineering
Teachers
- Antti Kosonen
Scheduling groups
- TRY23SA (Capacity: 35. Open UAS: 0.)
- TRY23SB (Capacity: 35. Open UAS: 0.)
Groups
-
TRY23S1Rakennus- ja yhdyskuntatekniikka (AMK)
Small groups
- TRY23SA
- TRY23SB
Objectives
The purpose of the course
You will learn the basics of fluid mechanics and thermodynamics which are required to understand different flow and heat transfer phenomena. In addition, you will learn logical problem solving.
Eur-ACE competences
Knowledge and understanding: You obtain the basic knowledge of fluid mechanics and thermodynamics for the field of engineering.
Multidisciplinary competences: You are able to apply the physical problem solving strategies in other fields of interest.
Communication and team-working: You will learn to communicate technical information, ideas and solutions in the engineering community.
Learning outcome
After completing this course you are able to identify the basic principles of the fluid mechanics, the effect of the temperature and the basics of heat transfer mechanisms.
Content
The course consists of the following themes
Density, pressure, basics of hydraulics, hydrostatic pressure, buoyancy, surface tension, volume flow, mass flow, continuity equation, Bernoulli equation, viscosity, temperature, thermal expansion, thermal stress, heat, specific heat, phase changes, thermal conduction, convection, thermal radiation, the basics of equations of state and air humidity.
Time and location
August 26, 2024 - October 13, 2024
Learning materials and recommended literature
Suvanto, K. & Turtiainen, E. 2003. Tekniikan fysiikka: 1. [Helsinki]: Edita.
Teaching methods
On-site instruction, independent study. Active completion of exercise tasks is essential for understanding the content. The course implementation has an attendance requirement.
If the registered student does not demonstrate activity in the course during the first three weeks, the registration will be rejected.
Practical training and working life connections
-
Exam dates and retake possibilities
- Exams during the week starting October 7.
- 1st retake session during the week starting October 28.
- 2nd retake session during the week starting November 18.
International connections
-
Alternative completion methods
Any implementation of the TZLF3300 course
Student workload
Estimated time commitment: 3 credits * 27 hours/credit = 81 hours
Content scheduling
The content breakdown will be published during the introductory lecture, but it is roughly as follows (weekly):
- Density, pressure, fundamentals of hydraulics
- Hydrostatic pressure, buoyancy, surface tension
- Volume flow rate, mass flow rate, continuity equation, Bernoulli's equation, viscosity
- Temperature, thermal expansion, thermal stress
- Heat energy, specific heat capacity, phase transitions, heat transfer mechanisms
- Fundamentals of thermodynamics, review
- Exams
Evaluation scale
0-5
Evaluation criteria, satisfactory (1-2)
Grade 1
You are able to identify the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve simple problems related to the course subjects. You are able to read charts and tables. Your solutions may contain some mistakes.
Grade 2
You are able to identify the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve basic problems related to the course subjects by using examples. You are able to read charts and tables. Your solutions may contain some mistakes.
Evaluation criteria, good (3-4)
Grade 3
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve basic problems related to the course subjects. You are able to read and produce charts and tables. Your solutions may contain some mistakes.
Grade 4
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve challenging problems related to the course subjects. You are able to read and produce charts and tables. Most of your solutions don't have any mistakes.
Evaluation criteria, excellent (5)
Grade 5
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve challenging problems related to the course subjects. You are able to read and produce charts and tables. Are are able to estimate the suitability of the used models for the problems at hand. Your solutions contain only few small careless mistakes.
Prerequisites
The basic knowledge of mechanics, elementary functions and equation solving are required.
Further information
-
Enrollment
01.08.2024 - 22.08.2024
Timing
26.08.2024 - 18.12.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Face-to-face
Unit
School of Technology
Campus
Main Campus
Teaching languages
- Finnish
Seats
20 - 40
Degree programmes
- Bachelor's Degree Programme in Mechanical Engineering
Teachers
- Ville Kotimäki
Groups
-
TKN23SBKonetekniikka (AMK)
-
TKN23SAKonetekniikka (AMK)
Objectives
The purpose of the course
You will learn the basics of fluid mechanics and thermodynamics which are required to understand different flow and heat transfer phenomena. In addition, you will learn logical problem solving.
Eur-ACE competences
Knowledge and understanding: You obtain the basic knowledge of fluid mechanics and thermodynamics for the field of engineering.
Multidisciplinary competences: You are able to apply the physical problem solving strategies in other fields of interest.
Communication and team-working: You will learn to communicate technical information, ideas and solutions in the engineering community.
Learning outcome
After completing this course you are able to identify the basic principles of the fluid mechanics, the effect of the temperature and the basics of heat transfer mechanisms.
Content
The course consists of the following themes
Density, pressure, basics of hydraulics, hydrostatic pressure, buoyancy, surface tension, volume flow, mass flow, continuity equation, Bernoulli equation, viscosity, temperature, thermal expansion, thermal stress, heat, specific heat, phase changes, thermal conduction, convection, thermal radiation, the basics of equations of state and air humidity.
Learning materials and recommended literature
The course uses videos and pdf lecture material.
The following books contain topics covered in the couse:
1.) Young, Hugh D.; Freedman, Roger A. University Physics with Modern Physics. International edition.
2.) Knight, Randal D. Physics for Scientists and Engineers. Pearson International edition.
3.) Suvanto, K. Tekniikan Fysiikka 1. Edita.
Teaching methods
The course consists of traditional lectures, exercises and laboratory work. The lectures will be recorded.
Exam dates and retake possibilities
The schedule for the exams will be announced during the first lecture.
Student workload
Lectures - 40 h
Final exam - 5 h
Self-study - 36 h
Further information for students
The course is evaluated on the basis of exercises, tests and a laboratory work.
In addition, the students must be present 80% of the lessons.
The first assignment of the course must be completed within three weeks of the start of course. Those who do not complete the task will be removed from the course.
Evaluation scale
0-5
Evaluation criteria, satisfactory (1-2)
Grade 1
You are able to identify the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve simple problems related to the course subjects. You are able to read charts and tables. Your solutions may contain some mistakes.
Grade 2
You are able to identify the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve basic problems related to the course subjects by using examples. You are able to read charts and tables. Your solutions may contain some mistakes.
Evaluation criteria, good (3-4)
Grade 3
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve basic problems related to the course subjects. You are able to read and produce charts and tables. Your solutions may contain some mistakes.
Grade 4
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve challenging problems related to the course subjects. You are able to read and produce charts and tables. Most of your solutions don't have any mistakes.
Evaluation criteria, excellent (5)
Grade 5
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve challenging problems related to the course subjects. You are able to read and produce charts and tables. Are are able to estimate the suitability of the used models for the problems at hand. Your solutions contain only few small careless mistakes.
Prerequisites
The basic knowledge of mechanics, elementary functions and equation solving are required.
Further information
-
Enrollment
20.11.2023 - 04.01.2024
Timing
01.01.2024 - 19.05.2024
Number of ECTS credits allocated
3 op
Mode of delivery
Face-to-face
Unit
School of Technology
Campus
Main Campus
Teaching languages
- Finnish
Seats
0 - 70
Degree programmes
- 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
Teachers
- Ville Kotimäki
Groups
-
ZJATER23S1Avoin amk, Energia- ja ympäristötekniikka , päivä
-
TER23S1Energia- ja ympäristötekniikka (AMK)
-
TER23SMEnergia- ja ympäristötekniikka (AMK)
-
ZJATER23SMAvoin amk, Energia- ja ympäristötekniikka , monimuoto
Objectives
The purpose of the course
You will learn the basics of fluid mechanics and thermodynamics which are required to understand different flow and heat transfer phenomena. In addition, you will learn logical problem solving.
Eur-ACE competences
Knowledge and understanding: You obtain the basic knowledge of fluid mechanics and thermodynamics for the field of engineering.
Multidisciplinary competences: You are able to apply the physical problem solving strategies in other fields of interest.
Communication and team-working: You will learn to communicate technical information, ideas and solutions in the engineering community.
Learning outcome
After completing this course you are able to identify the basic principles of the fluid mechanics, the effect of the temperature and the basics of heat transfer mechanisms.
Content
The course consists of the following themes
Density, pressure, basics of hydraulics, hydrostatic pressure, buoyancy, surface tension, volume flow, mass flow, continuity equation, Bernoulli equation, viscosity, temperature, thermal expansion, thermal stress, heat, specific heat, phase changes, thermal conduction, convection, thermal radiation, the basics of equations of state and air humidity.
Time and location
Kurssilla käytetään opettajan tekemiä videoita sekä pdf-muotoista materiaaleja.
Seuraavat kirjat sisältävät kurssilla käsiteltäviä aiheita:
1.) Young, Hugh D.; Freedman, Roger A. University Physics with Modern Physics. International edition.
2.) Knight, Randal D. Physics for Scientists and Engineers. Pearson International edition.
3.) Suvanto, K. Tekniikan Fysiikka 1. Edita.
Mitkä tahansa painokset kelpaavat.
Teaching methods
Kurssi koostuu perinteisestä luento-opetuksesta, opetusvideoiden katselusta sekä laskuharjoitusten laskemisesta.
Exam dates and retake possibilities
Kurssin tenttiaikataulut ilmoitetaan ensimmäisellä luennolla.
Student workload
38 h kontaktiopetusta.
5 h kokeita
38 h itsenäistä työskentelyä.
Further information for students
Kurssi arvioidaan kaksiosaisen loppukokeen ja laboratoriotyön perusteella.
Lisäksi kurssilla on päiväopiskelijoita koskeva läsnäolovelvoite (80% oppitunneista on oltava paikalla).
Evaluation scale
0-5
Evaluation criteria, satisfactory (1-2)
Grade 1
You are able to identify the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve simple problems related to the course subjects. You are able to read charts and tables. Your solutions may contain some mistakes.
Grade 2
You are able to identify the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve basic problems related to the course subjects by using examples. You are able to read charts and tables. Your solutions may contain some mistakes.
Evaluation criteria, good (3-4)
Grade 3
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve basic problems related to the course subjects. You are able to read and produce charts and tables. Your solutions may contain some mistakes.
Grade 4
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve challenging problems related to the course subjects. You are able to read and produce charts and tables. Most of your solutions don't have any mistakes.
Evaluation criteria, excellent (5)
Grade 5
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve challenging problems related to the course subjects. You are able to read and produce charts and tables. Are are able to estimate the suitability of the used models for the problems at hand. Your solutions contain only few small careless mistakes.
Prerequisites
The basic knowledge of mechanics, elementary functions and equation solving are required.
Further information
-
Enrollment
01.08.2023 - 24.08.2023
Timing
16.10.2023 - 19.12.2023
Number of ECTS credits allocated
3 op
Mode of delivery
Face-to-face
Unit
School of Technology
Campus
Main Campus
Teaching languages
- Finnish
Seats
0 - 74
Degree programmes
- Bachelor's Degree Programme in Mechanical Engineering
Teachers
- Ville Kotimäki
Groups
-
TKN22SAKonetekniikka (AMK)
-
TKN22SBKonetekniikka (AMK)
-
TKN22SMKonetekniikka (AMK)
Objectives
The purpose of the course
You will learn the basics of fluid mechanics and thermodynamics which are required to understand different flow and heat transfer phenomena. In addition, you will learn logical problem solving.
Eur-ACE competences
Knowledge and understanding: You obtain the basic knowledge of fluid mechanics and thermodynamics for the field of engineering.
Multidisciplinary competences: You are able to apply the physical problem solving strategies in other fields of interest.
Communication and team-working: You will learn to communicate technical information, ideas and solutions in the engineering community.
Learning outcome
After completing this course you are able to identify the basic principles of the fluid mechanics, the effect of the temperature and the basics of heat transfer mechanisms.
Content
The course consists of the following themes
Density, pressure, basics of hydraulics, hydrostatic pressure, buoyancy, surface tension, volume flow, mass flow, continuity equation, Bernoulli equation, viscosity, temperature, thermal expansion, thermal stress, heat, specific heat, phase changes, thermal conduction, convection, thermal radiation, the basics of equations of state and air humidity.
Learning materials and recommended literature
Suomeksi
Kurssilla käytetään opettajan tekemiä videoita sekä pdf-muotoista materiaaleja.
Seuraavat kirjat sisältävät kurssilla käsiteltäviä aiheita:
1.) Young, Hugh D.; Freedman, Roger A. University Physics with Modern Physics. International edition.
2.) Knight, Randal D. Physics for Scientists and Engineers. Pearson International edition.
3.) Suvanto, K. Tekniikan Fysiikka 1. Edita.
Mitkä tahansa painokset kelpaavat.
Teaching methods
Kurssi koostuu perinteisestä luento-opetuksesta, opetusvideoiden katselusta, laskuharjoitusten laskemisesta sekä laboratoriotyöstä. Luennoista tulee tallenteet.
Exam dates and retake possibilities
Kurssin koeaikataulut ilmoitetaan ensimmäisellä luennolla.
Student workload
Suomeksi
38 h kontaktiopetusta
5 h loppukoe
38 h itsenäistä opiskelua
Further information for students
Kurssi arvioidaan, kokeiden sekä laboratoriotyöstä kirjoitettavan raportin perusteella.
Evaluation scale
0-5
Evaluation criteria, satisfactory (1-2)
Grade 1
You are able to identify the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve simple problems related to the course subjects. You are able to read charts and tables. Your solutions may contain some mistakes.
Grade 2
You are able to identify the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve basic problems related to the course subjects by using examples. You are able to read charts and tables. Your solutions may contain some mistakes.
Evaluation criteria, good (3-4)
Grade 3
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve basic problems related to the course subjects. You are able to read and produce charts and tables. Your solutions may contain some mistakes.
Grade 4
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve challenging problems related to the course subjects. You are able to read and produce charts and tables. Most of your solutions don't have any mistakes.
Evaluation criteria, excellent (5)
Grade 5
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve challenging problems related to the course subjects. You are able to read and produce charts and tables. Are are able to estimate the suitability of the used models for the problems at hand. Your solutions contain only few small careless mistakes.
Prerequisites
The basic knowledge of mechanics, elementary functions and equation solving are required.
Further information
-
Enrollment
01.08.2023 - 24.08.2023
Timing
28.08.2023 - 19.12.2023
Number of ECTS credits allocated
3 op
Mode of delivery
Face-to-face
Unit
School of Technology
Campus
Main Campus
Teaching languages
- Finnish
Seats
0 - 45
Degree programmes
- Bachelor's Degree Programme in Construction and Civil Engineering
Teachers
- Jaakko Leppä-aho
Groups
-
TRY22S1Rakennus- ja yhdyskuntatekniikka (AMK)
Objectives
The purpose of the course
You will learn the basics of fluid mechanics and thermodynamics which are required to understand different flow and heat transfer phenomena. In addition, you will learn logical problem solving.
Eur-ACE competences
Knowledge and understanding: You obtain the basic knowledge of fluid mechanics and thermodynamics for the field of engineering.
Multidisciplinary competences: You are able to apply the physical problem solving strategies in other fields of interest.
Communication and team-working: You will learn to communicate technical information, ideas and solutions in the engineering community.
Learning outcome
After completing this course you are able to identify the basic principles of the fluid mechanics, the effect of the temperature and the basics of heat transfer mechanisms.
Content
The course consists of the following themes
Density, pressure, basics of hydraulics, hydrostatic pressure, buoyancy, surface tension, volume flow, mass flow, continuity equation, Bernoulli equation, viscosity, temperature, thermal expansion, thermal stress, heat, specific heat, phase changes, thermal conduction, convection, thermal radiation, the basics of equations of state and air humidity.
Learning materials and recommended literature
Kurssilla käytetään opettajan tekemiä videoita sekä pdf-muotoista materiaaleja.
Seuraavat kirjat sisältävät kurssilla käsiteltäviä aiheita:
1.) Young, Hugh D.; Freedman, Roger A. University Physics with Modern Physics. International edition.
2.) Knight, Randal D. Physics for Scientists and Engineers. Pearson International edition.
3.) Suvanto, K. Tekniikan Fysiikka 1. Edita.
Mitkä tahansa painokset kelpaavat.
Teaching methods
Kurssi toteutetaan käänteisen luokkahuoneen menetelmällä, eli opiskelijat katsovat etukäteen opetusvideoita ja kontaktitunnit käytetään harjoitustehtävien laskemiseen ja keskusteluun.
Monimuotoryhmällä on vain 2 kontaktikertaa, muu opetus on verkossa ja tallenteina.
Exam dates and retake possibilities
Kurssin tenttiaikataulut ilmoitetaan ensimmäisellä luennolla.
Student workload
35 h kontaktiopetusta.
46 h itsenäistä työskentelyä.
Further information for students
Kurssi arvioidaan kaksiosaisen (eri tasot) loppukokeen perusteella.
Avoin AMK 5 paikka
Evaluation scale
0-5
Evaluation criteria, satisfactory (1-2)
Grade 1
You are able to identify the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve simple problems related to the course subjects. You are able to read charts and tables. Your solutions may contain some mistakes.
Grade 2
You are able to identify the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve basic problems related to the course subjects by using examples. You are able to read charts and tables. Your solutions may contain some mistakes.
Evaluation criteria, good (3-4)
Grade 3
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve basic problems related to the course subjects. You are able to read and produce charts and tables. Your solutions may contain some mistakes.
Grade 4
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve challenging problems related to the course subjects. You are able to read and produce charts and tables. Most of your solutions don't have any mistakes.
Evaluation criteria, excellent (5)
Grade 5
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve challenging problems related to the course subjects. You are able to read and produce charts and tables. Are are able to estimate the suitability of the used models for the problems at hand. Your solutions contain only few small careless mistakes.
Prerequisites
The basic knowledge of mechanics, elementary functions and equation solving are required.
Further information
-
Enrollment
01.11.2022 - 05.01.2023
Timing
01.01.2023 - 31.05.2023
Number of ECTS credits allocated
3 op
Mode of delivery
Face-to-face
Unit
School of Technology
Teaching languages
- Finnish
Seats
0 - 60
Degree programmes
- 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
Teachers
- Ville Kotimäki
Groups
-
TER22S1Energia- ja ympäristötekniikka (AMK)
-
TER22SMEnergia- ja ympäristötekniikka (AMK)
Objectives
The purpose of the course
You will learn the basics of fluid mechanics and thermodynamics which are required to understand different flow and heat transfer phenomena. In addition, you will learn logical problem solving.
Eur-ACE competences
Knowledge and understanding: You obtain the basic knowledge of fluid mechanics and thermodynamics for the field of engineering.
Multidisciplinary competences: You are able to apply the physical problem solving strategies in other fields of interest.
Communication and team-working: You will learn to communicate technical information, ideas and solutions in the engineering community.
Learning outcome
After completing this course you are able to identify the basic principles of the fluid mechanics, the effect of the temperature and the basics of heat transfer mechanisms.
Content
The course consists of the following themes
Density, pressure, basics of hydraulics, hydrostatic pressure, buoyancy, surface tension, volume flow, mass flow, continuity equation, Bernoulli equation, viscosity, temperature, thermal expansion, thermal stress, heat, specific heat, phase changes, thermal conduction, convection, thermal radiation, the basics of equations of state and air humidity.
Learning materials and recommended literature
Kurssilla käytetään opettajan tekemiä videoita sekä pdf-muotoista materiaaleja.
Seuraavat kirjat sisältävät kurssilla käsiteltäviä aiheita:
1.) Young, Hugh D.; Freedman, Roger A. University Physics with Modern Physics. International edition.
2.) Knight, Randal D. Physics for Scientists and Engineers. Pearson International edition.
3.) Suvanto, K. Tekniikan Fysiikka 1. Edita.
Mitkä tahansa painokset kelpaavat.
Teaching methods
Kurssi koostuu perinteisestä luento-opetuksesta, opetusvideoiden katselusta sekä laskuharjoitusten laskemisesta.
Exam dates and retake possibilities
Kurssin tenttiaikataulut ilmoitetaan ensimmäisellä luennolla.
Student workload
38 h kontaktiopetusta.
5 h kokeita
38 h itsenäistä työskentelyä.
Further information for students
Kurssi arvioidaan kaksiosaisen loppukokeen ja laboratoriotyön perusteella.
Evaluation scale
0-5
Evaluation criteria, satisfactory (1-2)
Grade 1
You are able to identify the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve simple problems related to the course subjects. You are able to read charts and tables. Your solutions may contain some mistakes.
Grade 2
You are able to identify the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve basic problems related to the course subjects by using examples. You are able to read charts and tables. Your solutions may contain some mistakes.
Evaluation criteria, good (3-4)
Grade 3
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve basic problems related to the course subjects. You are able to read and produce charts and tables. Your solutions may contain some mistakes.
Grade 4
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve challenging problems related to the course subjects. You are able to read and produce charts and tables. Most of your solutions don't have any mistakes.
Evaluation criteria, excellent (5)
Grade 5
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve challenging problems related to the course subjects. You are able to read and produce charts and tables. Are are able to estimate the suitability of the used models for the problems at hand. Your solutions contain only few small careless mistakes.
Prerequisites
The basic knowledge of mechanics, elementary functions and equation solving are required.
Further information
-
Enrollment
01.08.2022 - 25.08.2022
Timing
29.08.2022 - 21.12.2022
Number of ECTS credits allocated
3 op
Mode of delivery
Face-to-face
Unit
School of Technology
Campus
Main Campus
Teaching languages
- Finnish
Seats
0 - 50
Degree programmes
- Bachelor's Degree Programme in Construction and Civil Engineering
Teachers
- Jaakko Leppä-aho
Teacher in charge
Jaakko Leppä-aho
Groups
-
TRY21S1Rakennus- ja yhdyskuntatekniikka (AMK)
Objectives
The purpose of the course
You will learn the basics of fluid mechanics and thermodynamics which are required to understand different flow and heat transfer phenomena. In addition, you will learn logical problem solving.
Eur-ACE competences
Knowledge and understanding: You obtain the basic knowledge of fluid mechanics and thermodynamics for the field of engineering.
Multidisciplinary competences: You are able to apply the physical problem solving strategies in other fields of interest.
Communication and team-working: You will learn to communicate technical information, ideas and solutions in the engineering community.
Learning outcome
After completing this course you are able to identify the basic principles of the fluid mechanics, the effect of the temperature and the basics of heat transfer mechanisms.
Content
The course consists of the following themes
Density, pressure, basics of hydraulics, hydrostatic pressure, buoyancy, surface tension, volume flow, mass flow, continuity equation, Bernoulli equation, viscosity, temperature, thermal expansion, thermal stress, heat, specific heat, phase changes, thermal conduction, convection, thermal radiation, the basics of equations of state and air humidity.
Learning materials and recommended literature
Kurssilla käytetään opettajan tekemiä videoita sekä pdf-muotoista materiaaleja.
Seuraavat kirjat sisältävät kurssilla käsiteltäviä aiheita:
1.) Young, Hugh D.; Freedman, Roger A. University Physics with Modern Physics. International edition.
2.) Knight, Randal D. Physics for Scientists and Engineers. Pearson International edition.
3.) Suvanto, K. Tekniikan Fysiikka 1. Edita.
Mitkä tahansa painokset kelpaavat.
Teaching methods
Kurssi toteutetaan käänteisen luokkahuoneen menetelmällä, eli opiskelijat katsovat etukäteen opetusvideoita ja kontaktitunnit käytetään harjoitustehtävien laskemiseen ja keskusteluun.
Exam dates and retake possibilities
Kurssin tenttiaikataulut ilmoitetaan ensimmäisellä luennolla.
Student workload
35 h kontaktiopetusta.
46 h itsenäistä työskentelyä.
Further information for students
Kurssi arvioidaan kaksiosaisen (eri tasot) loppukokeen perusteella.
Avoin AMK 5 paikka
Evaluation scale
0-5
Evaluation criteria, satisfactory (1-2)
Grade 1
You are able to identify the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve simple problems related to the course subjects. You are able to read charts and tables. Your solutions may contain some mistakes.
Grade 2
You are able to identify the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve basic problems related to the course subjects by using examples. You are able to read charts and tables. Your solutions may contain some mistakes.
Evaluation criteria, good (3-4)
Grade 3
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve basic problems related to the course subjects. You are able to read and produce charts and tables. Your solutions may contain some mistakes.
Grade 4
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve challenging problems related to the course subjects. You are able to read and produce charts and tables. Most of your solutions don't have any mistakes.
Evaluation criteria, excellent (5)
Grade 5
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve challenging problems related to the course subjects. You are able to read and produce charts and tables. Are are able to estimate the suitability of the used models for the problems at hand. Your solutions contain only few small careless mistakes.
Prerequisites
The basic knowledge of mechanics, elementary functions and equation solving are required.
Further 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
- Finnish
Seats
0 - 60
Degree programmes
- 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
Teachers
- Ville Kotimäki
Teacher in charge
Ville Kotimäki
Groups
-
TKN21SAKonetekniikka (AMK)
-
TKN21SBKonetekniikka (AMK)
-
TKN21SMKonetekniikka
Objectives
The purpose of the course
You will learn the basics of fluid mechanics and thermodynamics which are required to understand different flow and heat transfer phenomena. In addition, you will learn logical problem solving.
Eur-ACE competences
Knowledge and understanding: You obtain the basic knowledge of fluid mechanics and thermodynamics for the field of engineering.
Multidisciplinary competences: You are able to apply the physical problem solving strategies in other fields of interest.
Communication and team-working: You will learn to communicate technical information, ideas and solutions in the engineering community.
Learning outcome
After completing this course you are able to identify the basic principles of the fluid mechanics, the effect of the temperature and the basics of heat transfer mechanisms.
Content
The course consists of the following themes
Density, pressure, basics of hydraulics, hydrostatic pressure, buoyancy, surface tension, volume flow, mass flow, continuity equation, Bernoulli equation, viscosity, temperature, thermal expansion, thermal stress, heat, specific heat, phase changes, thermal conduction, convection, thermal radiation, the basics of equations of state and air humidity.
Learning materials and recommended literature
Suomeksi
Kurssilla käytetään opettajan tekemiä videoita sekä pdf-muotoista materiaaleja.
Seuraavat kirjat sisältävät kurssilla käsiteltäviä aiheita:
1.) Young, Hugh D.; Freedman, Roger A. University Physics with Modern Physics. International edition.
2.) Knight, Randal D. Physics for Scientists and Engineers. Pearson International edition.
3.) Suvanto, K. Tekniikan Fysiikka 1. Edita.
4.) Suvanto, K. Tekniikan Fysiikka 2. Edita.
Mitkä tahansa painokset kelpaavat.
Teaching methods
Kurssi koostuu perinteisestä luento-opetuksesta, opetusvideoiden katselusta, laskuharjoitusten laskemisesta sekä laboratoriotyöstä. Luennoista tulee tallenteet.
Exam dates and retake possibilities
Kurssin koeaikataulut ilmoitetaan ensimmäisellä luennolla.
Student workload
Suomeksi
42 h kontaktiopetusta
5 h loppukoe
34 h itsenäistä opiskelua
Further information for students
Kurssi arvioidaan, kokeiden sekä laboratoriotyöstä kirjoitettavan raportin perusteella.
Evaluation scale
0-5
Evaluation criteria, satisfactory (1-2)
Grade 1
You are able to identify the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve simple problems related to the course subjects. You are able to read charts and tables. Your solutions may contain some mistakes.
Grade 2
You are able to identify the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve basic problems related to the course subjects by using examples. You are able to read charts and tables. Your solutions may contain some mistakes.
Evaluation criteria, good (3-4)
Grade 3
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve basic problems related to the course subjects. You are able to read and produce charts and tables. Your solutions may contain some mistakes.
Grade 4
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve challenging problems related to the course subjects. You are able to read and produce charts and tables. Most of your solutions don't have any mistakes.
Evaluation criteria, excellent (5)
Grade 5
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve challenging problems related to the course subjects. You are able to read and produce charts and tables. Are are able to estimate the suitability of the used models for the problems at hand. Your solutions contain only few small careless mistakes.
Prerequisites
The basic knowledge of mechanics, elementary functions and equation solving are required.
Further information
-
Enrollment
01.11.2021 - 09.01.2022
Timing
10.01.2022 - 20.05.2022
Number of ECTS credits allocated
3 op
Mode of delivery
Face-to-face
Unit
School of Technology
Campus
Main Campus
Teaching languages
- Finnish
Seats
0 - 70
Degree programmes
- Bachelor's Degree Programme in Energy and Environmental Technology
Teachers
- Ville Kotimäki
Teacher in charge
Ville Kotimäki
Scheduling groups
- Päiväryhmä (Capacity: 40. Open UAS: 0.)
- Monimuoto (Capacity: 40. Open UAS: 0.)
Groups
-
ZJA21STPPENAvoin amk, tekniikka Enegia- ja ympäristötekniikka, päivä
-
ZJA21STPMENAvoin amk, tekniikka, Energia- ja ympäristöteniikka, monimuoto
-
TER21S1Energia- ja ympäristötekniikka (AMK)
-
TER21SMEnergia- ja ympäristötekniikka (AMK)
Small groups
- Pienryhmä 1
- Pienryhmä 2
Objectives
The purpose of the course
You will learn the basics of fluid mechanics and thermodynamics which are required to understand different flow and heat transfer phenomena. In addition, you will learn logical problem solving.
Eur-ACE competences
Knowledge and understanding: You obtain the basic knowledge of fluid mechanics and thermodynamics for the field of engineering.
Multidisciplinary competences: You are able to apply the physical problem solving strategies in other fields of interest.
Communication and team-working: You will learn to communicate technical information, ideas and solutions in the engineering community.
Learning outcome
After completing this course you are able to identify the basic principles of the fluid mechanics, the effect of the temperature and the basics of heat transfer mechanisms.
Content
The course consists of the following themes
Density, pressure, basics of hydraulics, hydrostatic pressure, buoyancy, surface tension, volume flow, mass flow, continuity equation, Bernoulli equation, viscosity, temperature, thermal expansion, thermal stress, heat, specific heat, phase changes, thermal conduction, convection, thermal radiation, the basics of equations of state and air humidity.
Learning materials and recommended literature
Kurssilla käytetään opettajan tekemiä videoita sekä pdf-muotoista materiaaleja.
Seuraavat kirjat sisältävät kurssilla käsiteltäviä aiheita:
1.) Young, Hugh D.; Freedman, Roger A. University Physics with Modern Physics. International edition.
2.) Knight, Randal D. Physics for Scientists and Engineers. Pearson International edition.
3.) Suvanto, K. Tekniikan Fysiikka 1. Edita.
Mitkä tahansa painokset kelpaavat.
Teaching methods
Kurssi koostuu perinteisestä luento-opetuksesta, opetusvideoiden katselusta sekä laskuharjoitusten laskemisesta.
Exam dates and retake possibilities
Kurssin tenttiaikataulut ilmoitetaan ensimmäisellä luennolla.
Student workload
36 h kontaktiopetusta.
5 h kokeita
40 h itsenäistä työskentelyä.
Further information for students
Kurssi arvioidaan kaksiosaisen loppukokeen perusteella.
Evaluation scale
0-5
Evaluation criteria, satisfactory (1-2)
Grade 1
You are able to identify the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve simple problems related to the course subjects. You are able to read charts and tables. Your solutions may contain some mistakes.
Grade 2
You are able to identify the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve basic problems related to the course subjects by using examples. You are able to read charts and tables. Your solutions may contain some mistakes.
Evaluation criteria, good (3-4)
Grade 3
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve basic problems related to the course subjects. You are able to read and produce charts and tables. Your solutions may contain some mistakes.
Grade 4
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve challenging problems related to the course subjects. You are able to read and produce charts and tables. Most of your solutions don't have any mistakes.
Evaluation criteria, excellent (5)
Grade 5
You undestand the basic principles of the course subjects and the models used to describe the physical systems. You are able to solve challenging problems related to the course subjects. You are able to read and produce charts and tables. Are are able to estimate the suitability of the used models for the problems at hand. Your solutions contain only few small careless mistakes.
Prerequisites
The basic knowledge of mechanics, elementary functions and equation solving are required.
Further information
-