Engineering PhysicsLaajuus (5 cr)
Code: TE00BZ99
Credits
5 op
Objective
After completing the course the student can:
- use quantities and units in accordance with the SI system
- solve problems consist of motion
- make graphical presentations and analyze them
- draw free-body diagram
- solve problems involved forces using Newton´s laws
- apply work and conservation of energy to solve problems
- calculate electric and magnetic forces acting on particles and the wave motion of an electro-magnetic fields in engineer’s work
- describe measurement techniques of temperature
Content
- SI system of units
- kinematics, friction
- Newton´s laws with some applications
- work, power and energy
- electric and magnetic fields
Qualifications
High school mathematics courses (higher or subsidiary level)
OR
Primary+secondary school and vocational school mathematics curriculum
OR
equivalent skills
Enrollment
10.10.2024 - 26.01.2025
Timing
13.01.2025 - 31.05.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Engineering and Business
Campus
Kupittaa Campus
Teaching languages
- Finnish
Seats
110 - 130
Degree programmes
- Degree Programme in Information and Communication Technology
Teachers
- Jaakko Lamminpää
- COS Opettaja
Groups
-
PTIVIS24BPTIVIS24B
-
PTIVIS24CPTIVIS24C
-
PTIVIS24APTIVIS24A
Objective
After completing the course the student can:
- use quantities and units in accordance with the SI system
- solve problems consist of motion
- make graphical presentations and analyze them
- draw free-body diagram
- solve problems involved forces using Newton´s laws
- apply work and conservation of energy to solve problems
- calculate electric and magnetic forces acting on particles and the wave motion of an electro-magnetic fields in engineer’s work
- describe measurement techniques of temperature
Content
- SI system of units
- kinematics, friction
- Newton´s laws with some applications
- work, power and energy
- electric and magnetic fields
Evaluation scale
H-5
Qualifications
High school mathematics courses (higher or subsidiary level)
OR
Primary+secondary school and vocational school mathematics curriculum
OR
equivalent skills
Enrollment
01.12.2024 - 13.01.2025
Timing
13.01.2025 - 31.05.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Engineering and Business
Campus
Kupittaa Campus
Teaching languages
- English
Seats
50 - 70
Degree programmes
- Degree Programme in Information and Communications Technology
Teachers
- Mikko Peltonen de Santiago
- COS Opettaja
Groups
-
PINFOS24APINFOS24A
-
PINFOS24BPINFOS24B
Objective
After completing the course the student can:
- use quantities and units in accordance with the SI system
- solve problems consist of motion
- make graphical presentations and analyze them
- draw free-body diagram
- solve problems involved forces using Newton´s laws
- apply work and conservation of energy to solve problems
- calculate electric and magnetic forces acting on particles and the wave motion of an electro-magnetic fields in engineer’s work
- describe measurement techniques of temperature
Content
- SI system of units
- kinematics, friction
- Newton´s laws with some applications
- work, power and energy
- electric and magnetic fields
Materials
OpenStax College Physics for AP® Courses 2e
In addition, online material prepared by the teacher, which is shared through the ItsLearning workspace.
Teaching methods
contact teaching, task-based study, independent study, teamwork, virtual teaching
Exam schedules
1st part-exam at week 9/10
2nd part-exam at week 16/17
The possibility to repeat part-exams is organized in May 2025 at a time to be announced later.
International connections
In the course, basic physics skills are studied, which are the basis of engineering work. The examples and tasks contain application examples related to the field of study. The course uses international physics notation and terminology, which gives students the skills to understand international engineering literature, standards, etc. When solving assignments, students are encouraged to work in a team. In the course an electrical learning environment is used.
Completion alternatives
If the student wants to complete the course with a test without homework, it must be agreed separately with the teacher.
Student workload
Contact lessons and exams 52 h
Independent study, homework and preparation for part-exams 75 h
Content scheduling
1/2025 - 2/2025: Quantities, units, significant figures, motion in one and two dimensions, projectile motion, free-body diagram, forces (Newton's laws), weight, forces of friction, work, energy and power; 1st part-exam
3/2025 - 4/2025: Electrostatics (Coulomb's law, electric field and potential), DC circuits, circuit analysis, fundamentals of magnetism, induction, transformer, generator, AC, impedance, electromagnetic waves; 2nd part-exam
5/2025: Retakes of part-exams
Further information
ITSlearning.
The course requires a calculator (scientific calculator or graphic display calculator).
(Avoin AMK 3 students)
Evaluation scale
H-5
Assessment methods and criteria
A total of 126 points.
A maximum of 66 points for completing homework assignments (one point is awarded for each correctly solved assignment)
A maximum of 60 points from the part-exams (2 x 30 points)
The course has a mandatory attendance: 50% of all classes (lectures and homework lessons).
To pass, attendance must be at least 50% and a total of at 50 points must be obtained (at least 12 of which are from exams)
Assessment criteria, fail (0)
Attendance is less than 50%
or
Total points less than 50
or
A total of less than 12 points in the part-exams
Assessment criteria, satisfactory (1-2)
Attendance at least 50%.
A total of at least 50 points and less than 74 points, and exam points are at least 12 points.
Assessment criteria, good (3-4)
Attendance at least 50%.
A total of at least 74points and less than 98 points, and exam points are at least 12 points.
Assessment criteria, excellent (5)
Attendance at least 50%.
At least 98 points.
Qualifications
High school mathematics courses (higher or subsidiary level)
OR
Primary+secondary school and vocational school mathematics curriculum
OR
equivalent skills
Enrollment
30.05.2024 - 05.09.2024
Timing
02.09.2024 - 13.12.2024
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Engineering and Business
Campus
Kupittaa Campus
Teaching languages
- Finnish
Seats
75 - 120
Degree programmes
- Degree Programme in Information and Communication Technology
Teachers
- Jaakko Lamminpää
- COS Opettaja
- Antti Haarto
Groups
-
PTIVIS24DPTIVIS24D
-
PTIVIS24EPTIVIS24E
-
PTIVIS24FPTIVIS24F
Objective
After completing the course the student can:
- use quantities and units in accordance with the SI system
- solve problems consist of motion
- make graphical presentations and analyze them
- draw free-body diagram
- solve problems involved forces using Newton´s laws
- apply work and conservation of energy to solve problems
- calculate electric and magnetic forces acting on particles and the wave motion of an electro-magnetic fields in engineer’s work
- describe measurement techniques of temperature
Content
- SI system of units
- kinematics, friction
- Newton´s laws with some applications
- work, power and energy
- electric and magnetic fields
Materials
Momentti 1, Insinöörifysiikka, Pentti Inkinen & Jukka Tuohi. Otava.
Momentti 2, Insinöörifysiikka, Pentti Inkinen, Reijo Manninen & Jukka Tuohi. Otava.
Tammertekniikka: Tekniikan kaavasto tai Otava: MAOL-taulukot
In addition, online material prepared by the teacher, which is shared through the ItsLearning workspace.
Teaching methods
face-to-face teaching, task-based study, independent study, teamwork, virtual teaching
Exam schedules
1st sub-exam at week 44
2nd sub-exam at week 50
The possibility to repeat sub-exams is organized in December 2024 - January 2025 at a time to be announced later.
International connections
In the course, basic physics skills are studied, which are the basis of engineering work. The examples and tasks contain application examples related to the field of study. The course uses international physics notation and terminology, which gives students the skills to understand international engineering literature, standards, etc. When solving assignments, students are encouraged to work in a team. In the course an electrical learning environment is used.
Completion alternatives
If the student wants to complete the course with a test without homework, it must be agreed separately with the teacher.
Student workload
Contact lessons and exams 52 h
Independent study, homework and preparation for sub-exams 75 h
Content scheduling
9/2024 - 10/2024: Quantities, units, significant numbers, motion in one and two dimensions, projectile motion, free-body diagram, forces (Newton's laws), weight, forces of friction, work, energy and power; 1st sub-exam
11/2024 - 12/2024: Electrostatics (Coulomb's law, electric field and potential), DC circuits, circuit analysis, fundamentals of magnetism, induction, transformer, generator, AC, impedance, electromagnetic waves; 2nd sub-exam
12/2024 - 1/2025: Repeats of sub-exams.
Further information
The course requires a calculator (function calculator, graphing calculator or CAS-calculator).
As the lectures and homework sessions have topics where students work and answer questions in groups, the course requires minimum attendance of 50% of lectures and homework sessions. It does not affect grade, but only if one can pass the course.
(Avoin AMK 3 students)
Evaluation scale
H-5
Assessment methods and criteria
The course has a mandatory attendance which is 50% of lessons and homework session.
A maximum of 66 points for completing homework assignments (one point is awarded for each correctly solved assignment)
A maximum of 60 points from the sub-exams (2 x 30 points)
A total of at least 12 points must be obtained from the sub-exams.
At least 12 homeworks must be done from the area of sub-exam 1.
At least 10 homeworks must be done from area 2 of sub-exam.
However, a total of at least 50 points must be obtained.
The assessment is based on understanding the course content and sufficient training (homework).
Assessment criteria, fail (0)
Total less than 50 points.
or
A total of less than 12 points in the partial exams
or
Less than 12 homeworks have been done from the area of sub-exam 1.
or
Less than 10 homeworks have been done from area of sub-exam 2.
or
Attendance is less than 50%
Sufficient understanding of the course content has not been shown and there has been too little training.
Assessment criteria, satisfactory (1-2)
A total of at least 50 points and less than 74 points, and a total of at least 12 points from sub-exams and at least 12+10 points from homework.
The basics of the course content have been understood and enough training has been done.
Assessment criteria, good (3-4)
At least 74 points and less than 98 points and a total of at least 12 points from sub-exams and at least 12+10 points from homework.
The content of the course is mostly well understood and a reasonable amount of practice has been done.
Assessment criteria, excellent (5)
At least 98 points.
The content of the course is excellently understood and a lot of training has been done.
Qualifications
High school mathematics courses (higher or subsidiary level)
OR
Primary+secondary school and vocational school mathematics curriculum
OR
equivalent skills
Enrollment
30.05.2024 - 05.09.2024
Timing
02.09.2024 - 10.12.2024
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Engineering and Business
Campus
Kupittaa Campus
Teaching languages
- English
Degree programmes
- Degree Programme in Information and Communications Technology
Teachers
- Mikko Peltonen de Santiago
- COS Opettaja
Groups
-
PINFOK24BPINFOK24B
-
PINFOK24APINFOK24A
-
PINFOS24CPINFOS24C
-
PINFOK24CPINFOK24C
Objective
After completing the course the student can:
- use quantities and units in accordance with the SI system
- solve problems consist of motion
- make graphical presentations and analyze them
- draw free-body diagram
- solve problems involved forces using Newton´s laws
- apply work and conservation of energy to solve problems
- calculate electric and magnetic forces acting on particles and the wave motion of an electro-magnetic fields in engineer’s work
- describe measurement techniques of temperature
Content
- SI system of units
- kinematics, friction
- Newton´s laws with some applications
- work, power and energy
- electric and magnetic fields
Materials
OpenStax College Physics for AP® Courses 2e
In addition, online material prepared by the teacher, which is shared through the ItsLearning workspace.
Teaching methods
contact teaching, task-based study, independent study, teamwork, virtual teaching
Exam schedules
1st part-exam at week 44
2nd part-exam at week 50
The possibility to repeat part-exams is organized in December 2024 - January 2025 at a time to be announced later.
International connections
In the course, basic physics skills are studied, which are the basis of engineering work. The examples and tasks contain application examples related to the field of study. The course uses international physics notation and terminology, which gives students the skills to understand international engineering literature, standards, etc. When solving assignments, students are encouraged to work in a team. In the course an electrical learning environment is used.
Completion alternatives
If the student wants to complete the course with a test without homework, it must be agreed separately with the teacher.
Student workload
Contact lessons and exams 52 h
Independent study, homework and preparation for part-exams 75 h
Content scheduling
9/2024 - 10/2024: Quantities, units, significant numbers, motion in one and two dimensions, projectile motion, free-body diagram, forces (Newton's laws), weight, forces of friction, work, energy and power; 1st part-exam
11/2024 - 12/2024: Electrostatics (Coulomb's law, electric field and potential), DC circuits, circuit analysis, fundamentals of magnetism, induction, transformer, generator, AC, impedance, electromagnetic waves; 2nd part-exam
12/2024 - 1/2025: Retakes of part-exams.
Further information
ITSlearning.
The course requires a calculator (function calculator or graphing calculator).
(Avoin AMK 3 students)
Evaluation scale
H-5
Assessment methods and criteria
A total of 126 points.
A maximum of 66 points for completing homework assignments (one point is awarded for each correctly solved assignment)
A maximum of 60 points from the part-exams (2 x 30 points)
The course has a mandatory attendance: 50% of all lessons (lectures and homework sessions).
If attendance > 70% you get 1 point. If attendance > 90% you get 2 points.
To pass, attendance must be at least 50% and a total of at 50 points must be obtained, and at least
- 12 of them must be obtained from the part-exams,
- 12 of them must come from the homework of topics 1-6
- 10 of them must come from the homework of topics 7-11
Assessment criteria, fail (0)
Attendance is less than 50%
or
Total points less than 50
or
A total of less than 12 points in the part-exams
or
Less than 12 points from the homework of topics 1-6
or
Less than 10 points from the homework of topics 7-11
Assessment criteria, satisfactory (1-2)
Attendance at least 50%.
A total of at least 50 points and less than 74 points, and a total of at least 12 points from part-exams and at least 12+10 points from homework.
Assessment criteria, good (3-4)
Attendance at least 50%.
At least 74 points and less than 98 points and a total of at least 12 points from part-exams and at least 12+10 points from homework.
Assessment criteria, excellent (5)
Attendance at least 50%.
At least 98 points.
Qualifications
High school mathematics courses (higher or subsidiary level)
OR
Primary+secondary school and vocational school mathematics curriculum
OR
equivalent skills
Enrollment
01.12.2023 - 15.01.2024
Timing
08.01.2024 - 26.04.2024
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Engineering and Business
Campus
Kupittaa Campus
Teaching languages
- Finnish
Seats
75 - 120
Degree programmes
- Degree Programme in Information and Communication Technology
Teachers
- Jaakko Lamminpää
- Antti Haarto
Groups
-
PTIVIS23APTIVIS23A
-
PTIVIS23BPTIVIS23B
-
PTIVIS23CPTIVIS23C
Objective
After completing the course the student can:
- use quantities and units in accordance with the SI system
- solve problems consist of motion
- make graphical presentations and analyze them
- draw free-body diagram
- solve problems involved forces using Newton´s laws
- apply work and conservation of energy to solve problems
- calculate electric and magnetic forces acting on particles and the wave motion of an electro-magnetic fields in engineer’s work
- describe measurement techniques of temperature
Content
- SI system of units
- kinematics, friction
- Newton´s laws with some applications
- work, power and energy
- electric and magnetic fields
Materials
Momentti 1, Insinöörifysiikka, Pentti Inkinen & Jukka Tuohi. Otava.
Momentti 2, Insinöörifysiikka, Pentti Inkinen, Reijo Manninen & Jukka Tuohi. Otava.
Tammertekniikka: Tekniikan kaavasto tai Otava: MAOL-taulukot
Lisäksi verkkomateriaalia ja opettajan laatimaa materiaalia, joka jaetaan ItsLearning työtilan kautta.
Teaching methods
lähiopetus, tehtäväperustaisuus, itsenäinen opiskelu, tiimityö, virtuaaliopetus
Exam schedules
1. osakoe vk 10.
2. osakoe vk 17
Vain toisen osakokeen voi uusia. Osakokeen uusimismahdollisuus järjestetään
toukokuussa - syyskuussa 2024.
International connections
Opintojaksolla opiskellaan fysiikan perustaitoja, jotka ovat insinöörityön perusta. Esimerkit ja tehtävät sisältävät alakohtaisia sovellusesimerkkejä. Opintojaksolla käytetään kansainvälisiä fysiikan merkintätapoja ja terminologiaa, mikä antaa opiskelijoille valmiuksia ymmärtää kansainvälistä insinöörialan kirjallisuutta, standardeja yms. Tehtävien ratkomisessa opiskelijoita kannustetaan tiimityöskentelyyn. Opintojaksolla käytetään sähköistä oppimisympäristöä.
Completion alternatives
Mikäli opiskelija haluaa suorittaa opintojakson näyttökokeella ilman kotitehtäviä, niin siitä on erikseen sovittava opettajan kanssa.
Student workload
Kontaktitunnit ja kokeet 52 h
Itsenäinen opiskelu, kotitehtävät ja osakokeisiin valmistautuminen (loppukokeeseen valmistautuminen) 75 h
Content scheduling
1/2024 - 3/2024: Suureet, yksiköt, etenevä liike, heitto- ja ymyräliike, vapaakappalekuvat, voimista (Newtonin lait), paino, kitka, työ ja energia, liikemäärä; osakoe 1
3/2024 - 4/2024: Sähköstatiikkaa, Coulombin laki, sähkökenttä ja -potentiaali, kondensaattorit, DC-piirit, magnetismioppia, induktio ja AC, muuntaja; osakoe 2
5/2025 - 9/2024: Osakokeiden uusinnat.
Further information
Opintojaksolla tarvitaan laskinta (funktiolaskin tai graafinen laskin).
(Avoin AMK 3 paikkaa)
Evaluation scale
H-5
Assessment methods and criteria
Kotitehtävien suorituksista korkeintaan 66 pistettä (jokaisesta oikein ratkaistusta tehtävästä saa pisteen)
Osakokeista yhteensä korkeintaan 60 pistettä (2 x 30 pistettä)
Osakokeista on saatava yhteensä vähintään 12 pistettä.
Osakokeen 1 alueesta on tehtävä ainakin 12 kotitehtävää.
Osakokeen 2 alueesta on tehtävä ainakin 10 kotitehtävää.
Yhteensä on kuitenkin saatava vähintään 50 pistettä
Assessment criteria, fail (0)
Yhteensä alle 50 pistettä.
tai
Osakaokeista yhteensä alle 12 pistettä
tai
Osakokeen 1 alueesta on tehty alle 12 kotitehtävää.
tai
Osakokeen 2 alueesta on tehty alle 10 kotitehtävää.
Assessment criteria, satisfactory (1-2)
Yhteensä vähintään 50 pistettä ja alle 74 pistettä sekä osakokeista yhteensä vähintään 12 pistettä ja kotitehtävistä vähintään 12+10 pistettä.
Assessment criteria, good (3-4)
Vähintään 74 pistettä ja alle 98 pistettä sekä osakokeista yhteensä vähintään 12 pistettä ja kotitehtävistä vähintään 12+10 pistettä.
Assessment criteria, excellent (5)
Vähintään 98 pistettä.
Qualifications
High school mathematics courses (higher or subsidiary level)
OR
Primary+secondary school and vocational school mathematics curriculum
OR
equivalent skills
Enrollment
01.12.2023 - 15.01.2024
Timing
08.01.2024 - 30.04.2024
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Engineering and Business
Campus
Kupittaa Campus
Teaching languages
- English
Seats
0 - 80
Degree programmes
- Degree Programme in Information and Communications Technology
Teachers
- Mikko Peltonen de Santiago
Groups
-
PINFOS23BPINFOS23B
-
PINFOS23APINFOS23A
Objective
After completing the course the student can:
- use quantities and units in accordance with the SI system
- solve problems consist of motion
- make graphical presentations and analyze them
- draw free-body diagram
- solve problems involved forces using Newton´s laws
- apply work and conservation of energy to solve problems
- calculate electric and magnetic forces acting on particles and the wave motion of an electro-magnetic fields in engineer’s work
- describe measurement techniques of temperature
Content
- SI system of units
- kinematics, friction
- Newton´s laws with some applications
- work, power and energy
- electric and magnetic fields
Materials
OpenStacks AP Physics Collection (a free online Physics textbook)
Physics notebook (written by TUAS Physics teachers, shared on ITSlearning)
In addition, other material (such as lecture slides) made by the teacher, shared on ITSlearning
Teaching methods
Lectures, homework, independent study
Exam schedules
1st part-exam on week 10.
2nd part-exam on week 17.
Only one of the part-exams may be retaken. A retake will be arranged in May/Sep 2024.
International connections
We will be learning basic physics skills which are a part of the foundation of all engineering. Exercises and examples include some that are directly related to ICT. We use international notation and terminology which allows students to understand engineering-related literature, standards etc. In homework exercises, students are encouraged to work in groups. We use online learning platforms throughout the course.
In lectures, the applications of physics in creating an ecologically sustainable and resilient society are highlighted.
Completion alternatives
If a student wants to pass the course without homework by attending a competency test this needs to be agreed upon with the teacher.
Student workload
Contact hours and exams 52 h
Independent study, homework and preparing for the part-exams 75 h
Content scheduling
1/2024 - 3/2024: Units, quantities, linear motion, projectile motion free body diagrams, forces (Newton's laws), work, energy, power, momentum. 1st part-exam.
3/2024 - 4/2024: Electrostatics, electric field, potential, capacitors, DC circuits, magnetism, induction and its applications. 2nd part-exam.
5/2024 - 9/2024: Retakes of the part-exams.
Further information
Course's ITSlearning page will be used for all communications about the course.
A calculator is required (scientific calculator or a graphical calculator) for the course.
Evaluation scale
H-5
Assessment methods and criteria
Total points given from homework exercises is 66 (one point per correct exercise).
Total points given from the part-exams is 60 (2 x 30 points).
To pass the course:
- Points gained from the part-exams must be at least 12 in total.
- Points gained from the homework before the first part-exam must be at least 12.
- Points gained from the homework after the first part-exam must be at least 10.
- However, total points gained from all homework and exams must be at least 50.
Assessment criteria, fail (0)
Total points are less than 50.
OR
Part-exam points total are less than 12.
OR
Points gained from the homework before the first part-exam are less than 12.
tai
Points gained from the homework after the first part-exam are less than 10.
Assessment criteria, satisfactory (1-2)
Total points at least 50 and less than 74, and points gained from the part-exams is at least 12 and from homework at least 12+10.
Assessment criteria, good (3-4)
Total points at least 74 and less than 98, and points gained from the part-exams is at least 12 and from homework at least 12+10.
Assessment criteria, excellent (5)
Total points at least 98.
Qualifications
High school mathematics courses (higher or subsidiary level)
OR
Primary+secondary school and vocational school mathematics curriculum
OR
equivalent skills
Enrollment
31.05.2023 - 16.09.2023
Timing
04.09.2023 - 15.12.2023
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Engineering and Business
Campus
Kupittaa Campus
Teaching languages
- English
Seats
50 - 80
Degree programmes
- Degree Programme in Information and Communications Technology
Teachers
- Mikko Peltonen de Santiago
Groups
-
PINFOS23CPINFOS23C
-
PINFOK23APINFOK23A
Objective
After completing the course the student can:
- use quantities and units in accordance with the SI system
- solve problems consist of motion
- make graphical presentations and analyze them
- draw free-body diagram
- solve problems involved forces using Newton´s laws
- apply work and conservation of energy to solve problems
- calculate electric and magnetic forces acting on particles and the wave motion of an electro-magnetic fields in engineer’s work
- describe measurement techniques of temperature
Content
- SI system of units
- kinematics, friction
- Newton´s laws with some applications
- work, power and energy
- electric and magnetic fields
Materials
Physics notebook (written by TUAS Physics teachers, shared on ITSlearning)
OpenStacks AP Physics Collection (a free online Physics textbook)
In addition, other material (such as lecture slides) made by the teacher, shared on ITSlearning
Teaching methods
Lectures, homework, independent study
Exam schedules
1st part-exam on Thursday of week 43.
2nd part-exam on Friday of week 49.
Only one of the part-exams may be retaken. A retake will be arranged in Jan/Feb 2024.
International connections
We will be learning basic physics skills which are a part of the foundation of all engineering. Exercises and examples include some that are directly related to ICT. We use international notation and terminology which allows students to understand engineering-related literature, standards etc. In homework exercises, students are encouraged to work in groups. We use online learning platforms throughout the course.
Completion alternatives
If a student wants to pass the course without homework by attending a competency test this needs to be agreed upon with the teacher.
Student workload
Contact hours and exams 52 h
Independent study, homework and preparing for the part-exams 75 h
Content scheduling
Weeks 36-49
9/2023 - 10/2023: Units, quantities, linear motion, projectile motion free body diagrams, forces (Newton's laws), work, energy, power, momentum. 1st part-exam.
11/2023 - 12/2023: Electrostatics, electric field, potential, capacitors, DC circuits, magnetism, induction and its applications. 2nd part-exam.
12/2023 - 2/2024: Retakes of the part-exams.
Further information
Course's ITSlearning page will be used for all communications about the course.
A calculator is required (scientific calculator or a graphical calculator) for the course.
Evaluation scale
H-5
Assessment methods and criteria
Total points given from homework exercises is 66 (one point per correct exercise).
Total points given from the part-exams is 60 (2 x 30 points).
To pass the course:
- Points gained from the part-exams must be at least 12 in total.
- Points gained from the homework before the first part-exam must be at least 12.
- Points gained from the homework after the first part-exam must be at least 10.
- However, total points gained from all homework and exams must be at least 50.
Assessment criteria, fail (0)
Total points are less than 50.
OR
Part-exam points total are less than 12.
OR
Points gained from the homework before the first part-exam are less than 12.
tai
Points gained from the homework after the first part-exam are less than 10.
Assessment criteria, satisfactory (1-2)
Total points at least 50 and less than 74, and points gained from the part-exams is at least 12 and from homework at least 12+10.
Assessment criteria, good (3-4)
Total points at least 74 and less than 98, and points gained from the part-exams is at least 12 and from homework at least 12+10.
Assessment criteria, excellent (5)
Total points at least 98.
Qualifications
High school mathematics courses (higher or subsidiary level)
OR
Primary+secondary school and vocational school mathematics curriculum
OR
equivalent skills
Enrollment
01.06.2023 - 17.09.2023
Timing
04.09.2023 - 15.12.2023
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Engineering and Business
Campus
Kupittaa Campus
Teaching languages
- Finnish
Seats
75 - 120
Degree programmes
- Degree Programme in Information and Communication Technology
Teachers
- Jaakko Lamminpää
- Antti Haarto
Groups
-
PTIVIS23DPTIVIS23D
-
PTIVIS23EPTIVIS23E
-
PTIVIS23FPTIVIS23F
Objective
After completing the course the student can:
- use quantities and units in accordance with the SI system
- solve problems consist of motion
- make graphical presentations and analyze them
- draw free-body diagram
- solve problems involved forces using Newton´s laws
- apply work and conservation of energy to solve problems
- calculate electric and magnetic forces acting on particles and the wave motion of an electro-magnetic fields in engineer’s work
- describe measurement techniques of temperature
Content
- SI system of units
- kinematics, friction
- Newton´s laws with some applications
- work, power and energy
- electric and magnetic fields
Materials
Momentti 1, Insinöörifysiikka, Pentti Inkinen & Jukka Tuohi. Otava.
Momentti 2, Insinöörifysiikka, Pentti Inkinen, Reijo Manninen & Jukka Tuohi. Otava.
Tammertekniikka: Tekniikan kaavasto tai Otava: MAOL-taulukot
Lisäksi verkkomateriaalia ja opettajan laatimaa materiaalia, joka jaetaan ItsLearning työtilan kautta.
Teaching methods
lähiopetus, tehtäväperustaisuus, itsenäinen opiskelu, tiimityö, virtuaaliopetus
Exam schedules
1. osakoe torstaina vk 44.
2. osakoe keskiviikkona vk 50
Vain toisen osakokeen voi uusia. Osakokeen uusimismahdollisuus järjestetään
joulukuussa 2023 - helmikuussa 2024.
International connections
Opintojaksolla opiskellaan fysiikan perustaitoja, jotka ovat insinöörityön perusta. Esimerkit ja tehtävät sisältävät alakohtaisia sovellusesimerkkejä. Opintojaksolla käytetään kansainvälisiä fysiikan merkintätapoja ja terminologiaa, mikä antaa opiskelijoille valmiuksia ymmärtää kansainvälistä insinöörialan kirjallisuutta, standardeja yms. Tehtävien ratkomisessa opiskelijoita kannustetaan tiimityöskentelyyn. Opintojaksolla käytetään sähköistä oppimisympäristöä.
Completion alternatives
Mikäli opiskelija haluaa suorittaa opintojakson näyttökokeella ilman kotitehtäviä, niin siitä on erikseen sovittava opettajan kanssa.
Student workload
Kontaktitunnit ja kokeet 52 h
Itsenäinen opiskelu, kotitehtävät ja osakokeisiin valmistautuminen (loppukokeeseen valmistautuminen) 75 h
Content scheduling
9/2023 - 10/2023: Suureet, yksiköt, etenevä liike, heitto- ja ymyräliike, vapaakappalekuvat, voimista (Newtonin lait), paino, kitka, työ ja energia, liikemäärä; osakoe 1
11/2023 - 12/2023: Sähköstatiikkaa, Coulombin laki, sähkökenttä ja -potentiaali, kondensaattorit, DC-piirit, magnetismioppia, induktio ja AC, muuntaja; osakoe 2
12/2023 - 2/2024: Osakokeiden uusinnat.
Further information
Opintojaksolla tarvitaan laskinta (funktiolaskin tai graafinen laskin).
(Avoin AMK 3 paikkaa)
Evaluation scale
H-5
Assessment methods and criteria
Kotitehtävien suorituksista korkeintaan 66 pistettä (jokaisesta oikein ratkaistusta tehtävästä saa pisteen)
Osakokeista yhteensä korkeintaan 60 pistettä (2 x 30 pistettä)
Osakokeista on saatava yhteensä vähintään 12 pistettä.
Osakokeen 1 alueesta on tehtävä ainakin 12 kotitehtävää.
Osakokeen 2 alueesta on tehtävä ainakin 10 kotitehtävää.
Yhteensä on kuitenkin saatava vähintään 50 pistettä
Assessment criteria, fail (0)
Yhteensä alle 50 pistettä.
tai
Osakaokeista yhteensä alle 12 pistettä
tai
Osakokeen 1 alueesta on tehty alle 12 kotitehtävää.
tai
Osakokeen 2 alueesta on tehty alle 10 kotitehtävää.
Assessment criteria, satisfactory (1-2)
Yhteensä vähintään 50 pistettä ja alle 74 pistettä sekä osakokeista yhteensä vähintään 12 pistettä ja kotitehtävistä vähintään 12+10 pistettä.
Assessment criteria, good (3-4)
Vähintään 74 pistettä ja alle 98 pistettä sekä osakokeista yhteensä vähintään 12 pistettä ja kotitehtävistä vähintään 12+10 pistettä.
Assessment criteria, excellent (5)
Vähintään 98 pistettä.
Qualifications
High school mathematics courses (higher or subsidiary level)
OR
Primary+secondary school and vocational school mathematics curriculum
OR
equivalent skills
Enrollment
30.11.2022 - 18.01.2023
Timing
09.01.2023 - 30.05.2023
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Engineering and Business
Campus
Kupittaa Campus
Teaching languages
- Finnish
Seats
60 - 105
Degree programmes
- Degree Programme in Information and Communication Technology
Teachers
- Jaakko Lamminpää
- Antti Haarto
Groups
-
PTIVIS22APTIVIS22A
-
PTIVIS22BPTIVIS22B
-
PTIVIS22CPTIVIS22C
Objective
After completing the course the student can:
- use quantities and units in accordance with the SI system
- solve problems consist of motion
- make graphical presentations and analyze them
- draw free-body diagram
- solve problems involved forces using Newton´s laws
- apply work and conservation of energy to solve problems
- calculate electric and magnetic forces acting on particles and the wave motion of an electro-magnetic fields in engineer’s work
- describe measurement techniques of temperature
Content
- SI system of units
- kinematics, friction
- Newton´s laws with some applications
- work, power and energy
- electric and magnetic fields
Evaluation scale
H-5
Qualifications
High school mathematics courses (higher or subsidiary level)
OR
Primary+secondary school and vocational school mathematics curriculum
OR
equivalent skills
Enrollment
30.11.2022 - 18.01.2023
Timing
09.01.2023 - 30.04.2023
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Engineering and Business
Campus
Kupittaa Campus
Teaching languages
- English
Seats
90 - 120
Degree programmes
- Degree Programme in Information and Communications Technology
Teachers
- Mikko Peltonen de Santiago
- Jaakko Lamminpää
Groups
-
PINFOK23BPINFOK23B
-
PINFOS22APINFOS22A
-
PINFOS22BPINFOS22B
Objective
After completing the course the student can:
- use quantities and units in accordance with the SI system
- solve problems consist of motion
- make graphical presentations and analyze them
- draw free-body diagram
- solve problems involved forces using Newton´s laws
- apply work and conservation of energy to solve problems
- calculate electric and magnetic forces acting on particles and the wave motion of an electro-magnetic fields in engineer’s work
- describe measurement techniques of temperature
Content
- SI system of units
- kinematics, friction
- Newton´s laws with some applications
- work, power and energy
- electric and magnetic fields
Materials
See ITSlearning
Teaching methods
Two weekly lessons have different aims. First one is a basic lesson with teaching with some discussions and basic problem solving methods. The emphasis is on understanding the theory. Second one is a problem solving lesson which is divided into two sections. Working in small groups to solve a problem and then there is time reserved to do the homework. Help is provided by the teacher or peers if needed.
Exam schedules
See ITSlearning
International connections
Lessons with discussions, interactive problem solving in small groups and basic calculations.
Student workload
See ITSlearning
Homework assignments and two tests
Total amount work 130 h of which 44 h are lessons.
Content scheduling
The course contains some of the basic physics needed for ICT engineers. Every week contains two lessons. From 9.1. to 30.4.2023.
The course is divided into two themes. Theme 1: motion, forces and energy. Theme 2: electromagnetism (including theory of electricity).
A more detailed schedule and topics can be found in ITSLearning.
Further information
ITSlearning
Evaluation scale
H-5
Assessment methods and criteria
Each homework assignment is worth one point and the course includes a mandatory amount of homework. Attendance to the problem solving classes is rewarded. You can pass the course with mainly homework, but to receive a better grade than 3, you also have to take a test. More information about the homework and grades can be found in ITSLearning.
Qualifications
High school mathematics courses (higher or subsidiary level)
OR
Primary+secondary school and vocational school mathematics curriculum
OR
equivalent skills
Enrollment
20.07.2022 - 07.09.2022
Timing
29.08.2022 - 16.12.2022
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Engineering and Business
Campus
Kupittaa Campus
Teaching languages
- English
Seats
20 - 35
Degree programmes
- Degree Programme in Information and Communications Technology
Teachers
- David Oliva
Groups
-
PINFOS22CPINFOS22C
Objective
After completing the course the student can:
- use quantities and units in accordance with the SI system
- solve problems consist of motion
- make graphical presentations and analyze them
- draw free-body diagram
- solve problems involved forces using Newton´s laws
- apply work and conservation of energy to solve problems
- calculate electric and magnetic forces acting on particles and the wave motion of an electro-magnetic fields in engineer’s work
- describe measurement techniques of temperature
Content
- SI system of units
- kinematics, friction
- Newton´s laws with some applications
- work, power and energy
- electric and magnetic fields
Materials
Teacher provides each week and in advance to the class a powerpoint with the concepts to learn
In additioin, these two books
UniversityPhysicsVolume1-OP.pdf (free online version)
UniversityPhysicsVolume2-OP.pdf (free online version)
Teaching methods
The main concepts of physics are presented to the students. Every day a new concept or theme. student solves exercises by its own.
The method concentrates in students to get agile with solving physics problems and the right use of mathematics. The course doesn't try to present lots of new concepts, but ensure that students are good with those ones presented.
Exam schedules
Final Exam: 9th December 2022 from 10:00 to 14:00
Retake exam timetable to be decided not later than end of March 2023
International connections
Innopeda and student centered approach
Completion alternatives
There are not alternative methods. All students in Finland need to be present in ICT building. NOT ONLINE
Student workload
2 hours of class every week plus 5 hours of own work
class starts sharp at defined time. Not 2, not 3, not 15 minutes after. If start time is 10:00, then it starts at 10:00
There is not brake during the class, since it is already short
Content scheduling
TO BE UPDATED ONCE THE TIMETABLES ARE CLEAR, in August
Classes are weekly (day and place to be confirmed), from 9:15 to 12:00.
Current situation goes as this (week number, date, time, topic, )
Week Date Time TOPIC
Friday 2.9.2022 12.00 14.00 LAMBDA ICT_C1027 Vectors and Scalars.
Friday 9.9.2022 12.00 14.00 LAMBDA ICT_C1027 Motion 1D, 2D, 3D
Tuesday 13.9.2022 10.00 12.00 BETA ICT_B1032 Motion 1D, 2D, 3D
Friday 23.9.2022 11.00 13.00 LAMBDA ICT_C1027 Newton laws of motion
Friday 30.9.2022 10.00 12.00 BETA ICT_B1032 Application of Newton laws
Friday 7.10.2022 10.00 12.00 LAMBDA ICT_C1027 Application of Newton laws
Friday 14.10.2022 10.00 12.00 LAMBDA ICT_C1027 Work, Kinetic Energy, Potential Energy, Conservation of Energy
Tuesday 25.10.2022 13.00 15.00 BETA ICT_B1032 Work, Kinetic Energy, Potential Energy, Conservation of Energy
Friday 11.11.2022 12.00 14.00 LAMBDA ICT_C1027 Momentum and Collisions
Friday 18.11.2022 12.00 14.00 LAMBDA ICT_C1027 Electric charge and Fields. Circuits 1 (Capacitance)
Friday 25.11.2022 12.00 14.00 LAMBDA ICT_C1027 Circuits 2 (Current and Resistance)
Friday 2.12.2022 10.00 12.00 LAMBDA ICT_C1027 REVIEW
Friday 9.12.2022 10.00 14.00 LAMBDA ICT_C1027 FINAL EXAM
The main concepts of physics are presented to the students. The teacher presents practical exercises to understand the formulae.
Themes: Vectors, cinematics, dynamics, laws of newton, conservation of energy, collisions, electricity and circuits
Further information
After completing the course you will be able to:
use quantities and units in accordance with the SI system
solve dynamics and cinematics problems
make graphical presentations and analyze them
draw free-body diagram
solve problems involved forces using Newton´s laws
apply work and conservation of energy to solve problems
calculate electric forces acting on particles
Evaluation scale
H-5
Assessment methods and criteria
Exam. Need to score 40 % of available points to obtain at least a grade 1.
Assessment criteria, fail (0)
Less than 40 % of the score in the exams (see system above)
Assessment criteria, satisfactory (1-2)
1 point: Between 40 % and 50 % of the score in the exam
2 points: Between 50 % and 59 % of the score in the exam
Assessment criteria, good (3-4)
3 points: Between 60 % and 69 % of the score in the exam
4 points: Between 70 % and 84 % of the score in the exam
Assessment criteria, excellent (5)
5 points: Between 85 % and 100 % of the score in the exams
Qualifications
High school mathematics courses (higher or subsidiary level)
OR
Primary+secondary school and vocational school mathematics curriculum
OR
equivalent skills
Enrollment
01.06.2022 - 09.09.2022
Timing
27.08.2022 - 02.12.2022
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Engineering and Business
Campus
Kupittaa Campus
Teaching languages
- Finnish
Seats
60 - 105
Degree programmes
- Degree Programme in Information and Communication Technology
Teachers
- Jaakko Lamminpää
- Antti Haarto
Groups
-
PTIVIS22DPTIVIS22D
-
PTIVIS22EPTIVIS22E
-
PTIVIS22FPTIVIS22F
Objective
After completing the course the student can:
- use quantities and units in accordance with the SI system
- solve problems consist of motion
- make graphical presentations and analyze them
- draw free-body diagram
- solve problems involved forces using Newton´s laws
- apply work and conservation of energy to solve problems
- calculate electric and magnetic forces acting on particles and the wave motion of an electro-magnetic fields in engineer’s work
- describe measurement techniques of temperature
Content
- SI system of units
- kinematics, friction
- Newton´s laws with some applications
- work, power and energy
- electric and magnetic fields
Evaluation scale
H-5
Qualifications
High school mathematics courses (higher or subsidiary level)
OR
Primary+secondary school and vocational school mathematics curriculum
OR
equivalent skills
Enrollment
01.12.2021 - 19.01.2022
Timing
10.01.2022 - 31.05.2022
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Engineering and Business
Campus
Kupittaa Campus
Teaching languages
- Finnish
Seats
75 - 110
Degree programmes
- Degree Programme in Information and Communication Technology
Teachers
- Jaakko Lamminpää
- Antti Haarto
Groups
-
PTIVIS21C
-
PTIVIS21B
-
PTIVIS21A
Objective
After completing the course the student can:
- use quantities and units in accordance with the SI system
- solve problems consist of motion
- make graphical presentations and analyze them
- draw free-body diagram
- solve problems involved forces using Newton´s laws
- apply work and conservation of energy to solve problems
- calculate electric and magnetic forces acting on particles and the wave motion of an electro-magnetic fields in engineer’s work
- describe measurement techniques of temperature
Content
- SI system of units
- kinematics, friction
- Newton´s laws with some applications
- work, power and energy
- electric and magnetic fields
Evaluation scale
H-5
Qualifications
High school mathematics courses (higher or subsidiary level)
OR
Primary+secondary school and vocational school mathematics curriculum
OR
equivalent skills
Enrollment
01.12.2021 - 19.01.2022
Timing
10.01.2022 - 30.04.2022
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Engineering and Business
Campus
Kupittaa Campus
Teaching languages
- English
Seats
20 - 40
Degree programmes
- Degree Programme in Information and Communications Technology
Teachers
- Jaakko Lamminpää
Groups
-
PINFOS21
Objective
After completing the course the student can:
- use quantities and units in accordance with the SI system
- solve problems consist of motion
- make graphical presentations and analyze them
- draw free-body diagram
- solve problems involved forces using Newton´s laws
- apply work and conservation of energy to solve problems
- calculate electric and magnetic forces acting on particles and the wave motion of an electro-magnetic fields in engineer’s work
- describe measurement techniques of temperature
Content
- SI system of units
- kinematics, friction
- Newton´s laws with some applications
- work, power and energy
- electric and magnetic fields
Materials
See ITSlearning
Teaching methods
Two weekly lessons have different aims. First one is a basic lesson with teaching with some discussions and basic problem solving methods. The emphasis is on understanding the theory. Second one is a problem solving lesson which is divided into two sections. Working in small groups to solve a problem and then there is time reserved to do the homework. Help is provided by the teacher or peers if needed.
International connections
Lessons with discussions, interactive problem solving in small groups and basic calculations.
Student workload
See ITSlearning
Homework assignments and two tests
Total amount work 130 h of which 44 h are lessons.
Content scheduling
The course contains some of the basic physics needed for ICT engineers. Every week contains two lessons. From 10.1. to 30.4.2022.
The course is divided into two themes. Theme 1: motion, forces and energy. Theme 2: electromagnetism (including theory of electricity).
A more detailed schedule and topics can be found in ITSLearning.
Evaluation scale
H-5
Assessment methods and criteria
Each homework assignment is worth one point and the course includes a mandatory amount of homework. Attendance to the problem solving classes is rewarded. You can pass the course with only homework, but to receive a better grade than 3, you also have to take a test. More information about the homework and grades can be found in ITSLearning.
Qualifications
High school mathematics courses (higher or subsidiary level)
OR
Primary+secondary school and vocational school mathematics curriculum
OR
equivalent skills