2.3.03 Intensity of diffractions due to pin hole
diaphragms and circular obstacles
2.3.04 Determination of diffraction intensity
due to multiple slits and grids
2.3.05 Determination of the diffraction intensity
at slit and double slit systems
2.3.06 Diffraction intensity through a slit and a wire
(Babinet's theorem)
2.4 Photometry
2.4.01 Transmission of colour filters -
Absorption of light (UV-VIS spectroscopy)
2.4.02 Photometric law of distance
2.4.03 Photometric law of distance with PC interface
2.4.04 Lambert's law
2.4.05 Lambert-Beer law - Diode array spectrometer
2.5 Polarisation
2.5.01 Polarisation by quarterwave plates
2.5.02 Polarimetry
2.5.03 Fresnel's equations - Theory of reflection
2.5.04 Malus' law
2.6 Applied Optics
2.6.01 Faraday effect
2.6.02 Kerr effect
2.6.03 Recording and reconstruction of holograms
2.6.04 CO2-laser
2.6.05 LDA - Laser-Doppler-Anemometry
2.6.07 Helium Neon Laser
2.6.08 Optical pumping
2.6.09 Nd-YAG laser
2.6.10 Fibre optics
2.6.11 Fourier optics - 2f Arrangement
2.6.12 Fourier optics - 4f Arrangement
- Filtering and reconstruction
2.7 Handbooks
2.7.01 Physics Demonstration Experiments
- Magnet Board Optics
2.7.02 Laser Physics I-Experiments with coherent light
2.7.03 Laser Physics II - Holography
2.7.04 Laser Physics III - Interferometry
2.7.05 Diode array spectrometer
3. Thermodynamics
3.1 Thermal Expansion
3.1.01 Thermal expansion in solids and liquids
3.2 Ideal and Real Gases
3.2.01 Equation of state of ideal gases
3.2.02 Heat capacity of gases
3.2.03 Maxwellian velocity distribution
3.2.04 Thermal equation of state and critical point |
3.2.05 Adiabatic coefficient of gases
- Flammersfeld oscillator
3.2.06 Joule-Thomson effect
3.3 Calorimetry, Friction Heat
3.3.01 Heat capacity of metals
3.3.02 Mechanical equivalent of heat
3.3.03 Heat of formation for CO2 and CO (Hess' Law)
3.3.04 COBRA - Calorimetry
3.4 Phase Transitions
3.4.01 Vapour pressure of water at high temperature
3.4.02 Vapour pressure of water below 100ˇÉ
/ Molar heat of vaporization
3.4.03 Boiling point elevation
3.4.04 Freezing point depression
3.4.05 Phase transitions / Differential thermoanalysis
3.5 Transport and Diffusion
3.5.01 Stefan-Boltzmann's law of radiation
3.5.02 Thermal and electrical conductivity of metals
3.5.03 Diffusion potentials / Nernst equation
3.6 Applied Thermodynamics
3.6.01 Solar ray collector
3.6.02 Heat pump
3.6.03 Heat insulation / Heat conduction
3.6.04 Stirling engine
3.7 Handbooks
3.7.01 Glass jacket system
3.7.02 Air cushion table
3.7.03 Physics Demonstration Experiments -
Magnet Board Thermodynamics
4. Electricity
4.1 Stationary Currents
4.1.01 Measurement of low resistance
4.1.02 Wheatstone bridge
4.1.03 Internal resistance and matching in voltage source
4.1.04 Temperature dependence of different resistors
and diodes
4.1.05 Working definition of voltage
4.1.06 Current balance / Force acting on a current
-carrying conductor
4.1.07 Semiconductor thermogenerator
4.1.08 Peltier heat pump
4.1.09 Characteristic curves of a solar cell
4.1.10 Characteristic curves of electron tubes
(diode, triode)
4.1.11 Characteristic and efficiency of PEM fuel cell and PEM electrolyser |
