Krister Svensson

Lectureplan “Materia I” and “Inled. Modern Fysik “ VT2015 Chapters Recomended problems Lecture 1 (2h): Quantisation of charge. Electron and nucleus.

- discovery of electron – Thomson, Millikan - discovery of the nucleus – Rutherford

38.1-38.5 38.6, 38.9

38.2/31/33/37/40

Lecture 2 (2h): Quantisation of energy. The atom.

- quantisation of light, photoelectric effect, light as photons – Einstein - quantisation of energy in atoms, (line spectra), hydrogen atom – Bohr

39.1-39.3 25.1, 38.8, 38.9 39.5-39.7

39.7/10/40/42/50/57/58/ 61 38.20

Lecture 3 (2h): Wave function and probability

- particle wave duality - double slit experiment - Wave function - Wave packets - Heisenberg uncertainty principle

39.4 40.1-40.2 40.3-40.4 40.5, 40.6

40.11/16/25/40/49

Lecture 4,5 (4h): Quantum mechanics. Schrödinger equation.

- Schrödinger equation in 1D - Infinite square well - Finite square well - Harmonic oscillator - Tunnelling

41.1-41.2 41.3-41.5 41.6 41.7-41.8 41.10

41.3/26/28

Lecture 6,7,8 (6h): Atomic physics

- Schrödinger equation in 3D - Quantum numbers - Hydrogen atom wave functions and energies - electron spin - atoms with more electrons, Pauli’s exclusion principle -excited states and spectra

42.1 42.1 42.2 42.3 42.4-42.5 42.6

42.8/27/29/51/53

Lecture 9,10 (4h): Nuclear Physics

- Nuclear structure and properties - Radioactivity - Fission and Fusion

38.7, 43.1-43.6 Additional material

38.10 43.3/13/22/28/42/57/59