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Engineering Physics 2Laajuus (3 cr)

Code: 5091138

Credits

3 op

Objective

This course offers the frame of reference, within which the student is given an opportunity to master key physical fundamentals and characteristic approaches in engineering:
- Make use of The International System of Units to interpret and explain engineering knowledge.

- Interpret and solve physical quantity equations together with their results and variations in physical quantities and their influences.

- Explain dependences between physical quantities by defining new physical quantities and interpreting natural phenomena.

- Evaluate validity and application of used physical and engineering concepts and methods.

Generalize fundamental physical concepts and principles together with fundamental interactions and conservation laws as unifying element in physical phenomena

Content

Mechanics, thermophysics, electricity and magnetism, oscillation
- Rotational motion of a rigid body

- Fluid mechanics

- Temperature and a change in it

- Thermal energy

- Thermal energy transfer


- Magnetic field
- Electrostatics
- Electromagnetic induction

- Oscillation

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Enrollment

03.06.2024 - 02.09.2024

Timing

02.09.2024 - 13.12.2024

Number of ECTS credits allocated

3 op

Virtual portion

3 op

Mode of delivery

Distance learning

Unit

Engineering and Business

Campus

Kupittaa Campus

Teaching languages
  • Finnish
Seats

1 - 81

Degree programmes
  • Degree Programme in Industrial Management Engineering
Teachers
  • COS Opettaja
  • Jani Viinikka
Scheduling groups
  • PTUTAS23A (Size: 41. Open UAS: 0.)
  • PTUTAS23B (Size: 41. Open UAS: 0.)
Groups
  • PTUTAS23A
    PTUTAS23A
  • PTUTAS23B
    PTUTAS23B
Small groups
  • PTUTAS23A
  • PTUTAS23B

Objective

This course offers the frame of reference, within which the student is given an opportunity to master key physical fundamentals and characteristic approaches in engineering:
- Make use of The International System of Units to interpret and explain engineering knowledge.

- Interpret and solve physical quantity equations together with their results and variations in physical quantities and their influences.

- Explain dependences between physical quantities by defining new physical quantities and interpreting natural phenomena.

- Evaluate validity and application of used physical and engineering concepts and methods.

Generalize fundamental physical concepts and principles together with fundamental interactions and conservation laws as unifying element in physical phenomena

Content

Mechanics, thermophysics, electricity and magnetism, oscillation
- Rotational motion of a rigid body

- Fluid mechanics

- Temperature and a change in it

- Thermal energy

- Thermal energy transfer


- Magnetic field
- Electrostatics
- Electromagnetic induction

- Oscillation

Materials

INKINEN, Pentti, Jukka Tuohi. Momentti 1, insinöörifysiikka. Kustannusosakeyhtiö Otava.
INKINEN, Pentti, Reijo Manninen, Jukka Tuohi. Momentti 2, insinöörifysiikka. Kustannusosakeyhtiö Otava.
Lisäksi suositellaan: Kaavasto- ja taulukkokirjat, SFS Online.

Teaching methods

Opintojaksolla käsitellään sen sisältöön liittyviä keskeisiä perusteita ja toimintatapoja sekä tavoitteisiin liittyviä tiimitehtäviä ja niiden esityksiä.

Exam schedules

Ei tenttiä. Opintojakso koostuu osasuorituksista.

International connections

Lähi-/etäopetus, ennakko- ja harjoitustehtävät, tiimitehtävät, sähköinen oppimisympäristö.

Opintojaksolla kannustetaaan soveltamaan vastuullisuuden ja kestävän kehityksen periaatteita.

Student workload

Toteutus ECTS mukaisesti.
Opiskelija käyttää aikaa sisällön läpikäyntiin sekä tehtävien ratkaisuun ja esittämiseen.

Content scheduling

Opintojaksolla käsiteltävät sisällöt, oppikirjan otsikoiden mukaisesti, seuraavassa järjestyksessä:
- Työ, teho ja energia: Työ. Teho. Liike-energia ja työ-energiaperiaate. Potentiaalienergia. Mekaanisen energian säilyminen.
- Lämpötila ja sen muuttuminen: Lämpötila ja sen mittaaminen. Kiinteiden aineiden ja nesteiden lämpölaajeneminen.
- Lämpöenergia: Lämpömäärä ja sisäenergia. Lämpökapasiteetti ja ominaislämpökapasiteetti. Olomuodon muutokset. Kalorimetria.
- Lämpöenergian siirtyminen: Konvektio. Johtuminen. Säteily.
- Sähköstatiikka: Sähkövaraus. Coulombin laki. Sähkökenttä. Gaussin laki. Potentiaali.
- Magneettikenttä: Magneettikenttä ja liikkuva varaus. Sähkövirran magneettikenttä.

Further information

Edeltävät opinnot: Insinöörifysiikka 1

Evaluation scale

H-5

Assessment methods and criteria

Opiskelijan osaamista arvioidaan opiskelijatiimien saamien tiimitehtävien perusteella. Opintokokonaisuuksien jälkeen pidettävillä tiimitehtäväsessioilla muodostuu kuhunkin tiimitehtäviin perustuva yksilö- ja tiimiarviointi. Opiskelijan yksilöosaamisen arviointi tapahtuu tiimitehtäviä koskevien testien perusteella ja tiimiosaamisen arviointi tapahtuu tiimitehtävistä palautettavien esitysten perusteella. Testeistä saatava yksilöarvosana on 0...2 arvosanaa ja tiimitehtävien esityksistä saatava tiimiarvosana on 0...3 arvosanaa. Kullakin tiimitehtäväsessiolla opiskelijan kokonaisarvosana muodostuu näiden summana. Opiskelijan saama opintojakson arvosana muodostuu tiimitehtäväsessioiden kokonaisarvosanojen keskiarvona.

Jokaisten tiimitehtävien testit ja palautukset on tehtävä kunkin tiimitehtäväsession aikana.

Hyväksytyn suorituksen arviointeja ei voi korottaa.

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Enrollment

01.05.2023 - 08.09.2023

Timing

04.09.2023 - 24.11.2023

Number of ECTS credits allocated

3 op

Virtual portion

3 op

Mode of delivery

Distance learning

Unit

Engineering and Business

Campus

Location-independent

Teaching languages
  • Finnish
Seats

1 - 50

Degree programmes
  • Degree Programme in Industrial Management Engineering
Teachers
  • Jani Viinikka
Groups
  • MTUTAMK23
    Degree Programme in Industrial Management Engineering, Sales

Objective

This course offers the frame of reference, within which the student is given an opportunity to master key physical fundamentals and characteristic approaches in engineering:
- Make use of The International System of Units to interpret and explain engineering knowledge.

- Interpret and solve physical quantity equations together with their results and variations in physical quantities and their influences.

- Explain dependences between physical quantities by defining new physical quantities and interpreting natural phenomena.

- Evaluate validity and application of used physical and engineering concepts and methods.

Generalize fundamental physical concepts and principles together with fundamental interactions and conservation laws as unifying element in physical phenomena

Content

Mechanics, thermophysics, electricity and magnetism, oscillation
- Rotational motion of a rigid body

- Fluid mechanics

- Temperature and a change in it

- Thermal energy

- Thermal energy transfer


- Magnetic field
- Electrostatics
- Electromagnetic induction

- Oscillation

Evaluation scale

H-5

Open in new tab
Enrollment

01.12.2022 - 15.01.2023

Timing

02.01.2023 - 28.04.2023

Number of ECTS credits allocated

3 op

Virtual portion

3 op

Mode of delivery

Distance learning

Unit

Engineering and Business

Campus

Location-independent

Teaching languages
  • Finnish
Seats

1 - 66

Teachers
  • Jani Viinikka
Scheduling groups
  • PTUTAS22A (Size: 33. Open UAS: 0.)
  • PTUTAS22B (Size: 33. Open UAS: 0.)
Groups
  • PTUTAS22A
    PTUTAS22A
  • PTUTAS22B
    PTUTAS22B
Small groups
  • PTUTAS22A
  • PTUTAS22B

Objective

This course offers the frame of reference, within which the student is given an opportunity to master key physical fundamentals and characteristic approaches in engineering:
- Make use of The International System of Units to interpret and explain engineering knowledge.

- Interpret and solve physical quantity equations together with their results and variations in physical quantities and their influences.

- Explain dependences between physical quantities by defining new physical quantities and interpreting natural phenomena.

- Evaluate validity and application of used physical and engineering concepts and methods.

Generalize fundamental physical concepts and principles together with fundamental interactions and conservation laws as unifying element in physical phenomena

Content

Mechanics, thermophysics, electricity and magnetism, oscillation
- Rotational motion of a rigid body

- Fluid mechanics

- Temperature and a change in it

- Thermal energy

- Thermal energy transfer


- Magnetic field
- Electrostatics
- Electromagnetic induction

- Oscillation

Evaluation scale

H-5

Open in new tab
Enrollment

01.12.2022 - 15.01.2023

Timing

02.01.2023 - 28.04.2023

Number of ECTS credits allocated

3 op

Virtual portion

3 op

Mode of delivery

Distance learning

Unit

Engineering and Business

Campus

Location-independent

Teaching languages
  • Finnish
Seats

1 - 50

Teachers
  • Jani Viinikka
Groups
  • PTUTAMS22
    PTUTAMS22

Objective

This course offers the frame of reference, within which the student is given an opportunity to master key physical fundamentals and characteristic approaches in engineering:
- Make use of The International System of Units to interpret and explain engineering knowledge.

- Interpret and solve physical quantity equations together with their results and variations in physical quantities and their influences.

- Explain dependences between physical quantities by defining new physical quantities and interpreting natural phenomena.

- Evaluate validity and application of used physical and engineering concepts and methods.

Generalize fundamental physical concepts and principles together with fundamental interactions and conservation laws as unifying element in physical phenomena

Content

Mechanics, thermophysics, electricity and magnetism, oscillation
- Rotational motion of a rigid body

- Fluid mechanics

- Temperature and a change in it

- Thermal energy

- Thermal energy transfer


- Magnetic field
- Electrostatics
- Electromagnetic induction

- Oscillation

Evaluation scale

H-5

Open in new tab
Enrollment

01.12.2021 - 14.01.2022

Timing

03.01.2022 - 29.04.2022

Number of ECTS credits allocated

3 op

Virtual portion

2 op

Mode of delivery

34 % Contact teaching, 66 % Distance learning

Unit

Engineering and Business

Campus

Kupittaa Campus

Teaching languages
  • Finnish
Seats

1 - 66

Degree programmes
  • Degree Programme in Industrial Management Engineering
Teachers
  • Jani Viinikka
Scheduling groups
  • PTUTAS21A (Size: 45. Open UAS: 0.)
  • PTUTAS21B (Size: 45. Open UAS: 0.)
Groups
  • PTUTAS21B
    PTUTAS21B
  • PTUTAS21A
    PTUTAS21A
Small groups
  • PTUTAS21A
  • PTUTAS21B

Objective

This course offers the frame of reference, within which the student is given an opportunity to master key physical fundamentals and characteristic approaches in engineering:
- Make use of The International System of Units to interpret and explain engineering knowledge.

- Interpret and solve physical quantity equations together with their results and variations in physical quantities and their influences.

- Explain dependences between physical quantities by defining new physical quantities and interpreting natural phenomena.

- Evaluate validity and application of used physical and engineering concepts and methods.

Generalize fundamental physical concepts and principles together with fundamental interactions and conservation laws as unifying element in physical phenomena

Content

Mechanics, thermophysics, electricity and magnetism, oscillation
- Rotational motion of a rigid body

- Fluid mechanics

- Temperature and a change in it

- Thermal energy

- Thermal energy transfer


- Magnetic field
- Electrostatics
- Electromagnetic induction

- Oscillation

Evaluation scale

H-5

Open in new tab
Enrollment

01.12.2021 - 14.01.2022

Timing

03.01.2022 - 29.04.2022

Number of ECTS credits allocated

3 op

Virtual portion

2 op

Mode of delivery

34 % Contact teaching, 66 % Distance learning

Unit

Engineering and Business

Campus

Kupittaa Campus

Teaching languages
  • Finnish
Seats

1 - 50

Degree programmes
  • Degree Programme in Industrial Management Engineering
Teachers
  • Jani Viinikka
Groups
  • PTUTAMS21

Objective

This course offers the frame of reference, within which the student is given an opportunity to master key physical fundamentals and characteristic approaches in engineering:
- Make use of The International System of Units to interpret and explain engineering knowledge.

- Interpret and solve physical quantity equations together with their results and variations in physical quantities and their influences.

- Explain dependences between physical quantities by defining new physical quantities and interpreting natural phenomena.

- Evaluate validity and application of used physical and engineering concepts and methods.

Generalize fundamental physical concepts and principles together with fundamental interactions and conservation laws as unifying element in physical phenomena

Content

Mechanics, thermophysics, electricity and magnetism, oscillation
- Rotational motion of a rigid body

- Fluid mechanics

- Temperature and a change in it

- Thermal energy

- Thermal energy transfer


- Magnetic field
- Electrostatics
- Electromagnetic induction

- Oscillation

Evaluation scale

H-5