FYS102A Physics for Biotechnologists
Showing course contents for the educational year 2014 - 2015 .
Course responsible: Cecilia Marie Futsæther
ECTS credits: 5
Faculty: Department of Mathematical Sciences and Technology
Teaching language: NO
Limits of class size:
Minimum 5 students
Teaching exam periods:
This course starts in Autumn parallel. This course has teaching/evaluation in Autumn parallel, .
Course frequency: Annually
First time: Study year 2012-2013
Teaching structure: About one 2-hour lectures per week. One 2-hour calculation lecture per week, and one 2-hour calculation exercise per week.
Contents: Pressure, temperature, density, energy, physical properties of pure substances, thermodynamic tables, state equations, energy transport by heat, work and mass. 1st and 2nd law of thermodynamics. Entropy. Exergy. Heat engines, refrigeration, heat pumps. Electrostatics and charge.Electric forces and fields. Electric current, simple circuits. Magnetic fields and forces. Electromagnetic induction. Maxwell"s equations . Electromagnetic radiation.
- Acquire an understanding of and be able to master the basic principles of classical macroscopical thermodynamics and electromagnetism. Be able to use mathematics as a tool for calculations and modelling of elementary thermodynamic and electromagnetic phenomena.
Understand and be able to calculate using the laws of thermodynamics, thermodynamic parameters, properties of pure substances, different forms of energy transport and cyclic processes.
- Become able to formulate, solve and interpret mathematical models for energy conservation, transport and conversion.
- Understand the principles of thermal physics so that the students can contribute to efficient energy use in our modern/industrial society.
Students are expected to understand the central topics of basic electromagnetism. Topics covered are: Electrostatics. Electric current, electric circuits, electric forces and fields. Magnetic forces and fields. Electromagnetic induction. Maxwell"s equations. Electromagnetic radiation.
Students should understand that basic knowledge of physics is fundamental for understanding natural phenomena and technology, for developing technology and that physics and the natural sciences are man-made tools developed for this purpose.
LECTURES where central terms, theory and examples are covered.
PRESENTATION OF WORKED OUT EXERCISES of key and advanced exercises.
EXERCISE SESSIONS where you solve exercises.
Web page with course information, message service and learning resources. By appointment, the student will be able to meet the lecturer and the assistant teachers outside the structured teaching time.
A detailed syllabus will be handed out at the beginning of the course.
MATH113 and FYS155 should be taken in parallel
Written end of term exam (2.5 h).
150 hrs including lectures and other classes.
Special requirements in Science
Reduction of credits:
Full overlap between FYS102A and FYS102. FYS102A is a 5 sp subset of FYS102.
Type of course:
The lecture period lasts 14 weeks. The equivalent of 13 weeks of organized lectures will be offered. One week will be made available for individual study or exam preparation. Lectures: 2 hours once weekly for 13 weeks = 52 hours. The lectures will be held together with FYS102 such that some weeks will have 4 lecture hours, others none, depending on topic. Calculation lectures: 2 hours per week for 13 weeks = 26 hours. Mathematics exercises: 2 hours per week for 13 weeks = 26 hours.
The external and internal examiner jointly prepare the exam questions and the correction manual. The external examiner reviews the internal examiner's examination results by correcting a random sample of candidate¿s exams as a calibration according to the Department's guidelines for examination markings.
Allowed examination aids: Calculator handed out, other aids as specified
Examination details: One written exam: A - E / Ikke bestått