Optics rider, 60/50

LD 460373
Optics rider, 60/50
Optics rider, 60/50

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This experiment/set up contains dangerous goods.
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Description

For precision optical bench with standard cross-section.
For demonstrations and lab experiments with high precision. Black anodized aluminium profile machined with highest mechanical accuracy. For optical elements mounted on rods.

Technical data

  • Height from optical bench: 60 mm
  • Width of base: 50 mm
  • Clamping width for rods: 10 ... 14 mm

Related Documents

PDF (Experiment description) PDF (Experiment description) P1.1.3.2 Determining the gravitational constant with the gravitation torsion balance after Cavendish
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PDF (Experiment description) PDF (Experiment description) P5.3.1.9 Investigation of the spatial coherence of an extended light source
PDF (Experiment description) PDF (Experiment description) P5.3.2.1 Interference at a Fresnel's mirror with an He-Ne laser
PDF (Experiment description) PDF (Experiment description) P5.3.2.2 Lloyd’s mirror experiment with an He-Ne laser
PDF (Experiment description) PDF (Experiment description) P5.3.2.3 Interference at Fresnel’s biprism with an He-Ne laser
PDF (Experiment description) PDF (Experiment description) P5.3.3.2 Newton's rings in transmitted and reflected white light
PDF (Experiment description) PDF (Experiment description) P5.3.4.3 Determining the wavelength of the light of an He-Ne laser using a Michelson interferometer - Set-up on the optical bench
PDF (Experiment description) PDF (Experiment description) P5.3.4.4 Determination of the coherence time and the line width of spectral lines with the Michelson interferometer
PDF (Experiment description) PDF (Experiment description) P5.3.4.5 Investigation of the pressure induced line broadening using a Michelson interferometer
PDF (Experiment description) PDF (Experiment description) P5.3.4.6 Determination of the line splitting of two spectral lines using a Michelson interferometer
PDF (Experiment description) PDF (Experiment description) P5.4.4.1 Investigating the Kerr effect in nitrobenzene
PDF (Experiment description) PDF (Experiment description) P5.4.6.1 Faraday effect: determining Verdet’s constant for flint glass as a function of the wavelength
PDF (Experiment description) PDF (Experiment description) P5.5.2.1 Stefan-Boltzmann law: measuring the radiant intensity of a "black body" as a function of temperature
PDF (Experiment description) PDF (Experiment description) P5.5.2.2 Stefan-Boltzmann law: measuring the radiant intensity of a "black body" as a function of temperature - Recording and evaluating with CASSY
PDF (Experiment description) PDF (Experiment description) P5.7.2.3 Assembling a grating spectrometer for measuring spectral lines
PDF (Experiment description) PDF (Experiment description) P6.1.6.1 Observing individual lycopod spores in a Paul trap
PDF (Experiment description) PDF (Experiment description) P6.2.2.3 Investigating the spectrum of a high pressure mercury lamp
PDF (Experiment description) PDF (Experiment description) P6.2.7.3 Observing the normal Zeeman effect in transverse and longitudinal configuration - spectroscopy using a Fabry-Perot etalon
PDF (Experiment description) PDF (Experiment description) P6.2.7.4 Measuring the Zeeman splitting of the red cadmium line as a function of the magnetic field - spectroscopy using a Fabry-Perot etalon
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