Product details

Lens on slide mount, f=+50mm

Lens on slide mount, f=+50mm

Item no.: 09820-01

  • Description
  • Related Experiments

Function and Applications

For student experiments with the support optical bench.

Equipment and technical data

  • Plastic lenses (d = 40 mm) in protective frame on a form base to set and displace on a support optical bench.
  • Focal distance indication and line mark for determination of position.
Experiment Item no.
TESS advanced Physics set Optics / Atomic physics, OA 13286-88
Student set Optics 2, TESS advanced Physics 15277-88
Determining the focal length of a convex lens P1068300
The magnifying glass P1068800
The structure of a microscope P1068900
Determining the magnification of a microscope P1069000
The astronomical telescope P1069100
Determining the magnification of a telescope P1069300
The camera P1069400
The depth of focus of a camera P1069500
The slide projector P1069600
Diffraction at a grid P1069700
Determination of the wavelength by grid diffraction P1069800
Rotation of the polarisation plane with a sugar solution P1070000
Fresnel's double mirror experiment P1195000
Fresnel's biprism experiment P1195100
Young's double slit experiment P1195200
Newton's rings P1195300
Diffraction at a slit P1195500
Diffraction at a narrow obstacle (line) - Babinet's princip-le P1195600
Diffraction at a double slit P1195700
Diffraction at multiple slits P1195800
Diffraction at a grating P1195900
Determination of the wavelength by grid diffraction P1196000
Coherence condition P1196100
Diffraction at a crossed grating P1196200
Diffraction at circular apertures P1196300
Diffraction at a system of circular apertures of equal size P1196400
Resolving power of optical devices P1196500
Resolving power of the microscope P1196600
Spectral resolving power of a grating P1196700
Polarisation by strain double refraction (birefringence) P1196900
Chromatic polarisation P1197000
Polarisation by dispersion P1197300
Rotation of the polarisation plane in a sugar solution P1197700
What does the spectrum of a light-emitting diode (LED) looklike? P1415101
What can one learn from diffraction patterns? P1416301
The Microscope P1436203
DEMO advanced physics set: Geometrical Optics on the optica 15560-88
Student set Optics / Atomic physics, TESS advanced Physics 15350-88

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