Physics and chemistry
Study plans 20162017

REA2101
 10 ECTS
On the basis of
TØL1001 Ingeniørrollen
Expected learning outcomes
Knowledge:
 develop a scientific basis and understanding
 understand how physics and chemistry is the basics in modern engineering
 understand the relationship between theory in classical mechanics and practical use
 understand the relationship between chemical theory and practical use
Skills:
 know relevant terms and formulas
 explain basic phenomena in physics and chemistry
 basic knowhow in laboratory work and how to write reports
Overall competence:
 understand the scientific way of thinking and working
 be able to communicate knowledge in physics and chemistry
Topic(s)
Physics:
 Mechanics:
 Kinematics and dynamics of translatory motion:
 Straightline and planar motion. Position, velocity and acceleration. Newton’s laws. Work, potential and kinetic energy. Momentum. Conservation laws. Power and efficiency.
 Kinematics and dynamics of rotational motion:
 Circular motion, angular velocity and angular acceleration. Rotation of a fixed body about a fixed axis. Moment of intertia and rotational energy. Torque and angular momentum. Rotational analog of Newton’s second law.
 Oscillations:
 Free and forced oscillations, with and without damping. Resonance. Mathematical and physical pendulum.
 Fluid mechanics:
 Hydrostatics: Pressure. Buoyancy. Forces on submerged surfaces. Hydrodynamics: Continuity equation. Bernoulli’s equation.
 Thermal physics:
 Linear and volume expansion. Heat transfer by conduction and convection.
Chemistry:
 Atom structure, periodic system and chemical bonds
 Chemical equations and types, stoichiometric calculations
 Naming of chemical compounds
 Acids, bases and buffers
 Galvanic cells, electrolysis and corrosion
 Gasses, solubility in liquids and solutions
 Basic organic chemistry
Teaching Methods
Lectures
Laboratory work
Net Support Learning
Exercises
Tutoring
Teaching Methods (additional text)
The course is open for both campus students and internet students. It will contain 1012 campus lectures, and the main points of the lectures will also be available on internet. 34 internet lectures given as web conference will also be given. All students must participate in 1 practical laboratory exercise to be performed at campus.
Form(s) of Assessment
Written exam, 5 hours
Grading Scale
Alphabetical Scale, A(best) – F (fail)
External/internal examiner
Sensureres av intern sensor (emnelærer(e)). Ekstern sensor benyttes periodisk (hvert 3.  4. år) til retting og utarbeidelse av eksamensoppgaver, neste gang høsten 2013.
Resit examination
Det arrangeres egen kontinuasjonseksamen.
Examination support
 Godkjent kalkulator (som ikke kan kommunisere med andre)
 John Haugan: Tabeller og formelsamling (NKIforlaget). ISBN 8256224835
 Gyldendal: Tabeller og formler i fysikk, 2Fy og 3Fy/Fysikk 1 og Fysikk 2
Coursework Requirements
1 practical laboratory exercise
Threesemester students must also have been approved.
Teaching Materials
Young, Hugh D. og Freedman, Roger A. (2007). University Physics. AddisonWesley, 12th edition. ISBN: 080532187X
Rystad, B. og Lauritzen, O. (2006) Kjemi og Miljøkunnskap. nki forlaget, 3. utgave. ISBN: 8256256729