Screen, translucent

LD 44153
Screen, translucent
  8  Screen, translucent

This product is classified as a dangerous good and is not available for online purchase.

For ordering the dangerous good or other information please contact our customer service center.
This experiment/set up contains dangerous goods.
These are not available for online purchase.
You may order the experiment/set up without the dangerous goods.


For ordering the dangerous good or other information please contact our customer service center.
Email: webshopuk@ld-didactic.de
Telephone:+49 (0) 22 33 / 604 – 319
Go to contact form

˟

Request an offer

Thank you for your inquiry. We will get back to you as soon as possible.

˟

Description

For the study of spectra, interference and diffraction patterns, also in moderately darkened rooms. Consists of transparent acrylic frosted on one side.

Technical data

  • Dimensions: 30 cm x 30 cm
  • Rod diameter: 10 mm

Related Documents

PDF (Instruction Sheet) PDF (Instruction Sheet) [441 53] Screen, translucent
PDF (Experiment description) PDF (Experiment description) P5.1.2.1 Determining the focal lengths at collecting and dispersing lenses using collimated light
PDF (Experiment description) PDF (Experiment description) P5.1.2.3 Determining the focal lengths at collecting lenses using Bessel’s method
PDF (Experiment description) PDF (Experiment description) P5.1.2.4 Verifying the imaging laws with a collecting lens
PDF (Experiment description) PDF (Experiment description) P5.1.3.1 Spherical aberration in lens imaging
PDF (Experiment description) PDF (Experiment description) P5.1.3.2 Astigmatism and curvature of image field in lens imaging
PDF (Experiment description) PDF (Experiment description) P5.1.3.3 Lens imaging distortions (barrel and cushion) and coma
PDF (Experiment description) PDF (Experiment description) P5.1.3.4 Chromatic aberration in lens imaging
PDF (Experiment description) PDF (Experiment description) P5.1.4.1 Magnifier and microscope
PDF (Experiment description) PDF (Experiment description) P5.3.1.1 Diffraction at a slit, at a post and at a circular iris diaphragm
PDF (Experiment description) PDF (Experiment description) P5.3.1.2 Diffraction at a double slit and multiple slits
PDF (Experiment description) PDF (Experiment description) P5.3.1.3 Diffraction at one- and two-dimensional gratings
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) P5.3.3.1 Newton's Rings in transmitted monochromatic light
PDF (Experiment description) PDF (Experiment description) P5.3.4.1 Setting up a Michelson interferometer on the laser optics base plate
PDF (Experiment description) PDF (Experiment description) P5.3.4.2 Determining the wavelength of the light of an He-Ne laser using a Michelson interferometer
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) P5.3.5.1 Setting up a Mach-Zehnder interferometer on the laser optics base plate
PDF (Experiment description) PDF (Experiment description) P5.3.5.2 Measuring the refractive index of air with a Mach-Zehnder interferometer
PDF (Experiment description) PDF (Experiment description) P5.4.2.1 Birefringence and polarization with calcareous spar
PDF (Experiment description) PDF (Experiment description) P5.4.2.2 Quarter-wavelength and half-wavelength plate
PDF (Experiment description) PDF (Experiment description) P5.4.2.3 Photoelasticity: Investigating the distribution of strains in mechanically stressed bodies
PDF (Experiment description) PDF (Experiment description) P5.4.3.1 Rotation of the plane of polarization with qua
PDF (Experiment description) PDF (Experiment description) P5.4.3.2 Rotation of the plane of polarization with sugar solutions
PDF (Experiment description) PDF (Experiment description) P5.4.3.3 Building a half-shadow polarimeter with discrete elements
PDF (Experiment description) PDF (Experiment description) P5.4.4.1 Investigating the Kerr effect in nitrobenzene
PDF (Experiment description) PDF (Experiment description) P5.4.5.1 Demonstrating the Pockels effect in a conoscopic beam path
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) P6.1.5.2 Optical analogy to electron diffraction at a polycrystalline lattice
PDF (Experiment description) PDF (Experiment description) P6.2.1.1 Determining the wavelengths Ha, Hß and H? from the Balmer series of hydrogen
PDF (Experiment description) PDF (Experiment description) P6.2.2.2 Qualitative investigation of the absorption spectrum of sodium
PDF (Experiment description) PDF (Experiment description) P6.6.1.1 Quantum eraser
PDF (Experiment description) PDF (Experiment description) C3.3.1.1 Absorption spectra of pigments on a screen
PDF (Experiment description) PDF (Experiment description) D3.4.6.4a Electrical power and the luminance of light bulbs (de)
PDF (Experiment description) PDF (Experiment description) D5.1.2.3 How an image is formed by a pinhole camera (de)
PDF (Experiment description) PDF (Experiment description) D5.1.3.1a Transparency and opacity of various solid bodies (de)
PDF (Experiment description) PDF (Experiment description) D5.4.2.1 Real images from a convex mirror
PDF (Experiment description) PDF (Experiment description) D5.4.3.1 Real images from a convex lens (de)
PDF (Experiment description) PDF (Experiment description) D5.4.3.2 Virtual images from a convex lens (de)
PDF (Experiment description) PDF (Experiment description) D5.4.3.4 Verification of laws applying to formation of images (de)
PDF (Experiment description) PDF (Experiment description) D5.4.3.5 Verification of lens equation (de)
PDF (Experiment description) PDF (Experiment description) D5.4.3.6 Determining the focal point of a convex lens (de)
PDF (Experiment description) PDF (Experiment description) D5.5.1.1 Magnification by a magnifying glass (de)
PDF (Experiment description) PDF (Experiment description) D5.5.2.1 Design of microscopes and how they form images (de)
PDF (Experiment description) PDF (Experiment description) D5.5.3.1 Design of telescopes and how they form images (de)
PDF (Experiment description) PDF (Experiment description) D5.5.6.1a Image formation and accommodation of the eye - Structure of the eye with lens model and translucent screen
PDF (Experiment description) PDF (Experiment description) D5.5.6.2a Long-sightedness - Structure of the eye with lens model and translucent screen
PDF (Experiment description) PDF (Experiment description) D5.5.6.3a Short-sightedness - Structure of the eye with lens model and translucent screen
PDF (Experiment description) PDF (Experiment description) D5.5.6.4a Presbyopia – Structure of the eye with lens model and translucent screen
PDF (Experiment description) PDF (Experiment description) D5.6.1.2a Dispersion of light into colours upon passage through a prism
PDF (Experiment description) PDF (Experiment description) D5.6.1.4a Infrared radiation in the continuous spectrum - Set-up with a zinc sulphide screen
PDF (Experiment description) PDF (Experiment description) D5.6.1.4b Infrared radiation in the continuous spectrum - Set-up with IR-sensor (de)
PDF (Experiment description) PDF (Experiment description) D5.6.1.6a Ultraviolet radiation in the continuous spectrum -Set-up with an ultraviolet phosphorescent screen
PDF (Experiment description) PDF (Experiment description) D5.6.2.2a Additive colour mixing - Three-colour lamp
PDF (Experiment description) PDF (Experiment description) D5.6.2.3a Additive colour mixing - Complementary colours - Three-colour lamp
Print page

Contact Us

Technical Service & Support:

Online Service Portal
Do you have any questions or suggestions regarding our devices, products, experiments, equipment sets or about our software? You need spare parts? FORM

Repair Service
You would like to register a repair? FORM

Europe
For European distributors, please visit: European distributors
Worldwide requests
Please contact us per email: sales@ld-didactic.de

 Click here for our contact form and postal address.

Contact Us