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Mechanical engineering physicsLaajuus (3 cr)

Code: KC00CB65

Objective

Upon completion of the course, student will
- understand the concepts and units used in explaining oscillatory motion, in the phenomena related to wave motion and in photometry.
- be able to analyse oscillatory and wave motion using mathematical models.
- be competent in calculating predictions for wave motion using mathematical models.
- be able to analyse the behaviour of different wave motions in different media and be competent in describing them using equations of magnitude.
- be able to design and carry out the noise level measurements of various machines according to standardized practises.
- be able to utilize photometry in design of lighting and light-based systems.
- be able to evaluate their skills in physics and apply their expertise in the subsequent advanced studies.

Content

- Oscillatory motion
- Wave motion
- Acoustics
- Wave optics and geometric optics
- Principle and uses of photoelectric effect

Qualifications

Mechanics, Thermal and electrical physics

Assessment criteria, satisfactory (1)

The student knows and understands to a satisfactory extent the basic concepts and methods of oscillatory motion and wave physics. The student is able to apply the basic consepts to usual problems.

Assessment criteria, good (3)

The student is familiar with the concepts and methods of oscillatory motion, wave physics and photometry. The student is able to apply the consepts to different types of problems. The student is able to combine the accumulated knowledge and skills with previous experiences in the subject.

Assessment criteria, excellent (5)

The student is familiar with the concepts and methods of oscillatory motion, wave physics and photometry, and is able to apply them to a variety of different problems. The student has demonstrated creativity and innovation, and is able to find new meanings when applying what they have learned.

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Enrollment

22.04.2024 - 09.10.2024

Timing

21.10.2024 - 18.12.2024

Credits

3 op

Teaching languages
  • Finnish
Degree programmes
  • Bachelor of Engineering, Mechanical Engineering
Teachers
  • Pasi Junell
Student groups
  • KONE23
    Bachelor of Engineering, Mechanical Engineering
  • AUTO23

Objective

Upon completion of the course, student will
- understand the concepts and units used in explaining oscillatory motion, in the phenomena related to wave motion and in photometry.
- be able to analyse oscillatory and wave motion using mathematical models.
- be competent in calculating predictions for wave motion using mathematical models.
- be able to analyse the behaviour of different wave motions in different media and be competent in describing them using equations of magnitude.
- be able to design and carry out the noise level measurements of various machines according to standardized practises.
- be able to utilize photometry in design of lighting and light-based systems.
- be able to evaluate their skills in physics and apply their expertise in the subsequent advanced studies.

Content

- Oscillatory motion
- Wave motion
- Acoustics
- Wave optics and geometric optics
- Principle and uses of photoelectric effect

Materials

- TBA
- Lecture notes

Teaching methods

Lectures and exercises, independent and virtual studies

Student workload

Total work load of the course: 80 h
- of which scheduled studies: 32 h
- of which autonomous studies: 48 h

Evaluation scale

1-5

Assessment criteria, satisfactory (1)

The student knows and understands to a satisfactory extent the basic concepts and methods of oscillatory motion and wave physics. The student is able to apply the basic consepts to usual problems.

Assessment criteria, good (3)

The student is familiar with the concepts and methods of oscillatory motion, wave physics and photometry. The student is able to apply the consepts to different types of problems. The student is able to combine the accumulated knowledge and skills with previous experiences in the subject.

Assessment criteria, excellent (5)

The student is familiar with the concepts and methods of oscillatory motion, wave physics and photometry, and is able to apply them to a variety of different problems. The student has demonstrated creativity and innovation, and is able to find new meanings when applying what they have learned.

Assessment methods and criteria

Written course-end examination and student assignment

Qualifications

Mechanics, Thermal and electrical physics

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Enrollment

22.04.2024 - 04.09.2024

Timing

19.08.2024 - 13.10.2024

Credits

3 op

Teaching languages
  • Finnish
Degree programmes
  • Bachelor of Engineering, Mechanical Engineering
Teachers
  • Pasi Junell
Student groups
  • MKONE23
    Bachelor of Engineering, Mechanical Engineering

Objective

Upon completion of the course, student will
- understand the concepts and units used in explaining oscillatory motion, in the phenomena related to wave motion and in photometry.
- be able to analyse oscillatory and wave motion using mathematical models.
- be competent in calculating predictions for wave motion using mathematical models.
- be able to analyse the behaviour of different wave motions in different media and be competent in describing them using equations of magnitude.
- be able to design and carry out the noise level measurements of various machines according to standardized practises.
- be able to utilize photometry in design of lighting and light-based systems.
- be able to evaluate their skills in physics and apply their expertise in the subsequent advanced studies.

Content

- Oscillatory motion
- Wave motion
- Acoustics
- Wave optics and geometric optics
- Principle and uses of photoelectric effect

Materials

- TBA
- Lecture notes

Teaching methods

Lectures and exercises, independent and virtual studies

Student workload

Total work load of the course: 80 h
- of which scheduled studies: 20 h
- of which autonomous studies: 60 h

Evaluation scale

1-5

Assessment criteria, satisfactory (1)

The student knows and understands to a satisfactory extent the basic concepts and methods of oscillatory motion and wave physics. The student is able to apply the basic consepts to usual problems.

Assessment criteria, good (3)

The student is familiar with the concepts and methods of oscillatory motion, wave physics and photometry. The student is able to apply the consepts to different types of problems. The student is able to combine the accumulated knowledge and skills with previous experiences in the subject.

Assessment criteria, excellent (5)

The student is familiar with the concepts and methods of oscillatory motion, wave physics and photometry, and is able to apply them to a variety of different problems. The student has demonstrated creativity and innovation, and is able to find new meanings when applying what they have learned.

Assessment methods and criteria

Written course-end examination and student assignment

Qualifications

Mechanics, Thermal and electrical physics

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Enrollment

17.04.2023 - 25.10.2023

Timing

23.10.2023 - 17.12.2023

Credits

3 op

Teaching languages
  • Finnish
Degree programmes
  • Bachelor of Engineering, Mechanical Engineering
Teachers
  • Pasi Junell
Student groups
  • AUTO22
  • KONE22

Objective

Upon completion of the course, student will
- understand the concepts and units used in explaining oscillatory motion, in the phenomena related to wave motion and in photometry.
- be able to analyse oscillatory and wave motion using mathematical models.
- be competent in calculating predictions for wave motion using mathematical models.
- be able to analyse the behaviour of different wave motions in different media and be competent in describing them using equations of magnitude.
- be able to design and carry out the noise level measurements of various machines according to standardized practises.
- be able to utilize photometry in design of lighting and light-based systems.
- be able to evaluate their skills in physics and apply their expertise in the subsequent advanced studies.

Content

- Oscillatory motion
- Wave motion
- Acoustics
- Wave optics and geometric optics
- Principle and uses of photoelectric effect

Materials

- TBA
- Lecture notes

Teaching methods

Lectures and exercises, independent and virtual studies

Student workload

Total work load of the course: 80 h
- of which scheduled studies: 32 h
- of which autonomous studies: 48 h

Evaluation scale

1-5

Assessment criteria, satisfactory (1)

The student knows and understands to a satisfactory extent the basic concepts and methods of oscillatory motion and wave physics. The student is able to apply the basic consepts to usual problems.

Assessment criteria, good (3)

The student is familiar with the concepts and methods of oscillatory motion, wave physics and photometry. The student is able to apply the consepts to different types of problems. The student is able to combine the accumulated knowledge and skills with previous experiences in the subject.

Assessment criteria, excellent (5)

The student is familiar with the concepts and methods of oscillatory motion, wave physics and photometry, and is able to apply them to a variety of different problems. The student has demonstrated creativity and innovation, and is able to find new meanings when applying what they have learned.

Assessment methods and criteria

Written course-end examination and student assignment

Qualifications

Mechanics, Thermal and electrical physics

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Enrollment

17.04.2023 - 06.09.2023

Timing

21.08.2023 - 15.10.2023

Credits

3 op

Virtual proportion (cr)

2 op

Teaching languages
  • Finnish
Degree programmes
  • Bachelor of Engineering, Mechanical Engineering
Teachers
  • Pasi Junell
Student groups
  • MKONE22

Objective

Upon completion of the course, student will
- understand the concepts and units used in explaining oscillatory motion, in the phenomena related to wave motion and in photometry.
- be able to analyse oscillatory and wave motion using mathematical models.
- be competent in calculating predictions for wave motion using mathematical models.
- be able to analyse the behaviour of different wave motions in different media and be competent in describing them using equations of magnitude.
- be able to design and carry out the noise level measurements of various machines according to standardized practises.
- be able to utilize photometry in design of lighting and light-based systems.
- be able to evaluate their skills in physics and apply their expertise in the subsequent advanced studies.

Content

- Oscillatory motion
- Wave motion
- Acoustics
- Wave optics and geometric optics
- Principle and uses of photoelectric effect

Materials

- TBA
- Lecture notes

Teaching methods

Lectures and exercises, independent and virtual studies

Student workload

Total work load of the course: 80 h
- of which scheduled studies: 20 h
- of which autonomous studies: 60 h

Evaluation scale

1-5

Assessment criteria, satisfactory (1)

The student knows and understands to a satisfactory extent the basic concepts and methods of oscillatory motion and wave physics. The student is able to apply the basic consepts to usual problems.

Assessment criteria, good (3)

The student is familiar with the concepts and methods of oscillatory motion, wave physics and photometry. The student is able to apply the consepts to different types of problems. The student is able to combine the accumulated knowledge and skills with previous experiences in the subject.

Assessment criteria, excellent (5)

The student is familiar with the concepts and methods of oscillatory motion, wave physics and photometry, and is able to apply them to a variety of different problems. The student has demonstrated creativity and innovation, and is able to find new meanings when applying what they have learned.

Assessment methods and criteria

Written course-end examination and student assignment

Qualifications

Mechanics, Thermal and electrical physics

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Enrollment

16.04.2022 - 07.09.2022

Timing

29.08.2022 - 16.10.2022

Credits

3 op

Teaching languages
  • Finnish
Degree programmes
  • Bachelor of Engineering, Mechanical Engineering
Teachers
  • Pasi Junell
Student groups
  • AUTO21
  • KONE21

Objective

Upon completion of the course, student will
- understand the concepts and units used in explaining oscillatory motion, in the phenomena related to wave motion and in photometry.
- be able to analyse oscillatory and wave motion using mathematical models.
- be competent in calculating predictions for wave motion using mathematical models.
- be able to analyse the behaviour of different wave motions in different media and be competent in describing them using equations of magnitude.
- be able to design and carry out the noise level measurements of various machines according to standardized practises.
- be able to utilize photometry in design of lighting and light-based systems.
- be able to evaluate their skills in physics and apply their expertise in the subsequent advanced studies.

Content

- Oscillatory motion
- Wave motion
- Acoustics
- Wave optics and geometric optics
- Principle and uses of photoelectric effect

Materials

- TBA
- Lecture notes

Teaching methods

Lectures and exercises, independent and virtual studies

Student workload

Total work load of the course: 80 h
- of which scheduled studies: 28 h
- of which autonomous studies: 52 h

Evaluation scale

1-5

Assessment criteria, satisfactory (1)

The student knows and understands to a satisfactory extent the basic concepts and methods of oscillatory motion and wave physics. The student is able to apply the basic consepts to usual problems.

Assessment criteria, good (3)

The student is familiar with the concepts and methods of oscillatory motion, wave physics and photometry. The student is able to apply the consepts to different types of problems. The student is able to combine the accumulated knowledge and skills with previous experiences in the subject.

Assessment criteria, excellent (5)

The student is familiar with the concepts and methods of oscillatory motion, wave physics and photometry, and is able to apply them to a variety of different problems. The student has demonstrated creativity and innovation, and is able to find new meanings when applying what they have learned.

Assessment methods and criteria

Written course-end examination and student assignment

Qualifications

Mechanics, Thermal and electrical physics

Open in new tab
Enrollment

16.04.2022 - 07.09.2022

Timing

15.08.2022 - 16.10.2022

Credits

3 op

Teaching languages
  • Finnish
Degree programmes
  • Bachelor of Engineering, Mechanical Engineering
Teachers
  • Pasi Junell
Student groups
  • MKONE21

Objective

Upon completion of the course, student will
- understand the concepts and units used in explaining oscillatory motion, in the phenomena related to wave motion and in photometry.
- be able to analyse oscillatory and wave motion using mathematical models.
- be competent in calculating predictions for wave motion using mathematical models.
- be able to analyse the behaviour of different wave motions in different media and be competent in describing them using equations of magnitude.
- be able to design and carry out the noise level measurements of various machines according to standardized practises.
- be able to utilize photometry in design of lighting and light-based systems.
- be able to evaluate their skills in physics and apply their expertise in the subsequent advanced studies.

Content

- Oscillatory motion
- Wave motion
- Acoustics
- Wave optics and geometric optics
- Principle and uses of photoelectric effect

Materials

- TBA
- Lecture notes

Teaching methods

Lectures and exercises, independent and virtual studies

Student workload

Total work load of the course: 80 h
- of which scheduled studies: 20 h
- of which autonomous studies: 60 h

Evaluation scale

1-5

Assessment criteria, satisfactory (1)

The student knows and understands to a satisfactory extent the basic concepts and methods of oscillatory motion and wave physics. The student is able to apply the basic consepts to usual problems.

Assessment criteria, good (3)

The student is familiar with the concepts and methods of oscillatory motion, wave physics and photometry. The student is able to apply the consepts to different types of problems. The student is able to combine the accumulated knowledge and skills with previous experiences in the subject.

Assessment criteria, excellent (5)

The student is familiar with the concepts and methods of oscillatory motion, wave physics and photometry, and is able to apply them to a variety of different problems. The student has demonstrated creativity and innovation, and is able to find new meanings when applying what they have learned.

Assessment methods and criteria

Written course-end examination and student assignment

Qualifications

Mechanics, Thermal and electrical physics