FYSA2001 Modern Physics, part A (5–6 cr)
Description
Limitatins of classical physics
Particle-like properties of electromagnetic radiation
Wave-like properties of particles
Wave-particle dualism
Schrödinger equation
Structure and spectrum of atoms
Hydrogen atom
Many-electron atoms
Molecules
Statistical physics
Solid-state physics
Learning outcomes
After completing the study unit the student can
describe the main experimental evidence of wave-particle dualism
describe the photon and its main properties
define the de Broglien wavelength and apply the uncertainty pronciple
explain properties of the hydrogen atom based on the Schrödinger equation
describe the quantization of energy and angular momentum and electron spin
apply the Pauli exclusion principle to atoms and molecules
describe the types of bonding, vibrations and rotations of molecules
explain the Bose-Einstein and Ferm-Dirac statistics and their consequences
describe the crystal structure, crystal vibrations and electron structure of simple solids
descibe the electron structure of a crystalline solid
explain why some materials are metals, insulators, semiconductors or superconductors
solve simple problems starting from given basic equations
Additional information
Nanotieteiden koulutusohjelmassa fysiikan perusopintokokonaisuuteen sivuaineena sisällytettynä opintojakso suoritetaan 5 op laajuisena ilman laboratoriotöitä.
Description of prerequisites
FYSP1010 Introduction to Mechanics
- Basic concepts like energy, momentuma and angular momentum
FYSP1020 Waves and Thermodynamics
- Harmonic oscillations
FYSP1040 Introduction to Theory of Electricity
- Point charge electric field
FYSP1050 Introduction to Electromagnetism
- Magnetic field
- Electromagnetic waves
MATP211-213 Calculus 1-3, especially:
- Properties of elementary functions
- Derivative and integral
- Finding the maximum of a given function
MATA114 Differential equations, especially:
- Concept of differential equation
- Basic principles of solving an ordinary differential equation
- Actual solving of differential equations is not required, known solutions to cases appearing in the course are given in course materials and textbook
MATA181 Vector calculus 1 (can be done during the same period), especially:
- Functions of more than one variable
- The concept of partial derivativeIn addition, some basic properties of complex numbers are needed, see textbook
Study materials
Lecture material in Finnish in the TIM system
Literature
- Kenneth S. Krane. Modern Physics. 3. painos, Wiley, 2012. ISBN: 978-1-118-32464-6.
- Kenneth S. Krane. Modern Physics. 4. painos, 2019, Wiley, ISBN: 978-1-119-49546-8
- Harris, Modern Physics (additional reading)