course-details-portlet

TFY4170

Physics 2

Credits 7.5
Level Third-year courses, level III
Course start Spring 2018
Duration 1 semester
Language of instruction English
Examination arrangement Written examination

About

About the course

Course content

Waves: Wave function, complex notation, plane waves, spherical waves, interference and diffraction, Doppler-effect, wave equation, mechanical waves, sound waves, light, dispersion, wave velocity and group velocity, wave packets, Fourier methods, band widths.
Quantum mechanics: Experimental foundation, waves and particles, Schrödinger equation, particle in a box, harmonic oscillator, atomic physics, atomic spectra, one-electron atom, orbitals, many-electron atoms, the periodic system.
Material science: Molecules and solid state, electron-model of metals, band model, insulator, semiconductor and metals, semiconductors, dielectric materials, optical, magnetic and superconducting materials.

Learning outcome

The student shall have fundamental understanding about waves, quantum mechanics, atoms, molecules and solid state. Concerning waves, the knowledge should include complex notation, plane waves, spherical waves, interference, diffraction, Doppler effect, wave equations, mechanical waves, sound waves, light, dispersion, phase velocity, group velocity, wave packets, Fourier methods and band width. Within quantum mechanics, the student should know the experimental foundations, waves and particles, Schrodinger equation, particle in box, harmonic oscillator. About atoms and molecules, the students should know one-electron atoms, orbitals, many-electron atoms, and the period system of the elements. The student shall know the electron model of metals, insulators, semiconductors, conductors, dielectrics, magnetism and superconductivity in solid state.

Learning methods and activities

Lectures and compulsory exercises. 2/3 of the exercises are required to take the exam.

Compulsory assignments

  • Calculation exercises

Further on evaluation

The re-sit examination (in August) may be changed from written to oral.

Course materials

Relevant books:
Young and Freedman: University Physics, or M. Mansfield and C. O'Sullivan. Understanding Physics.

Credit reductions

Course code Reduction From
SIF4022 7.5 sp
This course has academic overlap with the course in the table above. If you take overlapping courses, you will receive a credit reduction in the course where you have the lowest grade. If the grades are the same, the reduction will be applied to the course completed most recently.

Other pages about the course

Subject areas

  • Physics
  • Technological subjects

Contact information

Course coordinator

  • Justin W Wells

Lecturers

  • Justin W Wells

Department with academic responsibility

Department of Physics

Examination

Examination

Examination arrangement: Written examination

Ordinary examination - Spring 2018

Skriftlig
Grade Letters Weighting 100/100 Date 2018-05-14 Time 09:00 Duration 4 timer Place and room Not specified yet.

Examination arrangement: Oral examination

Re-sit examination - Summer 2018

Muntlig eksamen
Grade Letters Weighting 100/100 Date 2018-08-10

All about examinations at NTNU