IFYT1001 - Physics


This course is no longer taught and is only available for examination.

Examination arrangement

Examination arrangement: School exam
Grade: Letter grades

Evaluation Weighting Duration Grade deviation Examination aids
School exam 100/100 4 hours G

Course content

Kinematics. Newton´s laws. Work. Kinetic and potential energy. Linear momentum. Moment of inertia. Torque. Coulomb´s law. Electric field and potential. Current. Magnetic field. Induction. Resistance, capacitance. Electric motors and generators.

Learning outcome

Knowledge:The candidate* has knowledge of basic classical mechanics, electricity, and magnetism* can define and explain the most important concepts within basic classical mechanics, electricity, and magnetism* is familiar with relevant applications in physicsSkills:The candidate can* formulate and solve, with analytical and numerical methods, mathematical models for given problems related to classical mechanics, electricity, and magnetism* associate variables in idealized models with real physical quantities* conduct measurements, and analyze, interpret, and document the results* perform calculations with quantities and units in the SI system, and is able to make transformations between different unit systemsGeneral competence:The candidate* can motivate and justify professional choices and convey this to others in terms of basic physics* participate actively in group work and professional discussions

Learning methods and activities

Lectures, exercises, laboratory work. Expected work load in the course is 225 hours. (Lectures: ca 60 hours. Exercises: ca 20 hours. Laboratory work: ca 20 hours. Self-study: ca 125 hours.) Compulsory activities: 6 of 8 assignments and a report from laboratory work must be handed in and approved for exam admission.

Compulsory assignments

  • Exercises physics
  • Lab

Further on evaluation

Digital exam. Letter grades A - F. The re-sit examination may be changed from written to oral.In addition to the specific basic calculator models, the following calculators are permitted for the exam: Casio FX9750, Casio FX9850, Casio FX9860GII (incl. SD), Casio FXCG20, Casio FXCG50, Texas Instrument 84 Plus.

Specific conditions

Admission to a programme of study is required:
Computer Science - Engineering (BIDATA)

Required previous knowledge

None beyond the acceptance criteria.

Course materials

University Physics, OpenStax.Information about detailed curriculum and alternative literature is announced at semester start.

Credit reductions

Course code Reduction From To
IFYA1001 7.5 AUTUMN 2019
IFYG1001 7.5 AUTUMN 2019
IFYKJT1000 5.0 AUTUMN 2020
IFYKJT1001 7.5 AUTUMN 2020
IFYKJA1000 5.0 AUTUMN 2020
IFYKJA1001 7.5 AUTUMN 2020
IFYKJG1000 5.0 AUTUMN 2020
IFYKJG1001 7.5 AUTUMN 2020
IFYKJT1002 7.5 AUTUMN 2020
TALM1002 5.0 AUTUMN 2020
TALM1008 5.0 AUTUMN 2020
TALM1009 5.0 AUTUMN 2020
TALM1013 5.0 AUTUMN 2020
IFYT1000 5.0 AUTUMN 2023
IFYT1002 7.5 AUTUMN 2023
IFYA1002 7.5 AUTUMN 2023
IFYG1000 5.0 AUTUMN 2023
IFYG1002 7.5 AUTUMN 2023
More on the course



Version: 1
Credits:  7.5 SP
Study level: Foundation courses, level I


Language of instruction: Norwegian

Location: Trondheim

Subject area(s)
  • Physics
Contact information
Course coordinator: Lecturer(s):

Department with academic responsibility
Department of Physics


Examination arrangement: School exam

Term Status code Evaluation Weighting Examination aids Date Time Examination system Room *
Spring ORD School exam 100/100 G 2024-05-28 09:00 INSPERA
Room Building Number of candidates
SL310 hvit sone Sluppenvegen 14 28
Summer UTS School exam 100/100 G INSPERA
Room Building Number of candidates
  • * The location (room) for a written examination is published 3 days before examination date. If more than one room is listed, you will find your room at Studentweb.

For more information regarding registration for examination and examination procedures, see "Innsida - Exams"

More on examinations at NTNU