course-details-portlet

FO001421 - Physics

About

New from the academic year 2022/2023

Examination arrangement

Examination arrangement: School exam
Grade: Letter grades

Evaluation Weighting Duration Grade deviation Examination aids
School exam 100/100 5 hours C

Course content

BASIC MECHANICS THERMOPHYSICS ELECTRICITY AND ATOMIC PHYSICS

Learning outcome

With a passed exam / assessment in the subject, the candidate must have the following overall learning outcome defined in the form of knowledge, skills and general competence:

Knowledge

The candidate has knowledge of physical topics that are fundamental to technological subjects.

The candidate knows the subject's central methods, and can define and explain the most important concepts from mechanics, thermophysics, electricity theory, atomic physics and radiation physics .

The candidate has knowledge of the requirements for the experiment

Skills

The candidate can make calculations on kinematic, dynamic and static issues in one and two dimensions

The candidate can make calculations on work, power, oscillations, fluid statics, thermophysical and radioational physical problems, simple electrical circuits and conservation of mechanical energy and momentum.

The candidate can calculate sizes and units in the SI system, and masters conversion between units. The candidate can identify variables that occur in idealized models with physical quantities in reality The candidate can conduct experiments in a qualified and safe way, make measurements, interpret results and write a report

The candidate is familiar with simple applications of numerical solution techniques General competence The candidate can explain principles of scientific thinking

The candidate can communicate with others about scientific issues by using physical concepts and sizes

The candidate understands the connection between physics and technological applications

The candidate understands the physics subject's ambitions to create quantitative models of natural phenomena

General competence

The candidate can explain principles of scientific thinking

The candidate can communicate with others about scientific issues by using physical concepts and sizes

The candidate understands the connection between physics and technological applications

The candidate understands the physics subject's ambitions to create quantitative models of natural phenomena

Learning methods and activities

Pedagogical methods:

Classroom teaching, demonstrations, laboratory exercises.

Mandatory work requirements: Two delivered individual samples per. school years and some minor individual work requirements announced in Bb. At least 80% attendance at the teaching per. vacation. In addition, six submission work based on experiments performed by the students. These can be delivered individually or in groups and must be approved by the specified deadline in order to take the exam.

Compulsory assignments

  • Oblig

Further on evaluation

5 hours individual written final exam (100%) New and postponed exam: In the event of failure of the final exam, a re-sit exam will be held at the beginning of August. For the exam, it is allowed to use a specific simple calculator, Gyldendals tabeller og formler i fysikk, F1 og F2 og formelsamling i matematikk for vgs, ...R1, R2,..

Mandatory work requirements: Two three-hour rehearsals, one for Christmas and one for Easter. Some minor work requirements announced in Bb. Six approved lab reports based on performed lab tasks. At least 80% attendance at the teaching per. vacation.

Specific conditions

Course materials

Obligatorisk: Grimenes et al: Rom Stoff Tid - Grunnbok, Cappelen (2022), ISBN:xxxxx, Hele boka Grimenes et al: Rom, Stoff Tid - studiebok, Cappelen (2022), ISBN: xxxxxx

Detailed information in Bb at the start of the study.

John Haugan og Eimund Aamot: Gyldendals tabeller og formler i fysikk, Fysikk 1 og Fysikk 2, Gyldendal (2011), ISBN: 978-82-05-419193

Formelsamling i matematikk for vgs. ...r1,r2,...

More on the course

No

Facts

Version: 1
Credits: 
Study level: Preparatory test/preparatory course

Coursework

Term no.: 1
Teaching semester:  AUTUMN 2022

Term no.: 2
Teaching semester:  SPRING 2023

Language of instruction: Norwegian

Location: Ålesund

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

Department with academic responsibility
Department of ICT and Natural Sciences

Examination

Examination arrangement: School exam

Term Status code Evaluation Weighting Examination aids Date Time Examination system Room *
Spring ORD School exam 100/100 C 2023-05-26 09:00 INSPERA
Room Building Number of candidates
G331 Gnisten/Fagskolen 27
G326 Gnisten/Fagskolen 30
Summer UTS School exam 100/100 C 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.
Examination

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

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