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P2.4.3.1 Observing a mixture of liquid and gas at the critical point
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P3.3.4.1 Measuring the magnetic field for a straight conductor and on circular conductor loops
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P5.1.2.1 Determining the focal lengths at collecting and dispersing lenses using collimated light
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P5.1.2.2 Determining the focal lengths at collecting lenses through autocollimation
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P5.1.2.3 Determining the focal lengths at collecting lenses using Bessels method
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P5.1.2.4 Verifying the imaging laws with a collecting lens
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P5.1.3.1 Spherical aberration in lens imaging
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P5.1.3.2 Astigmatism and curvature of image field in lens imaging
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P5.1.3.3 Lens imaging distortions (barrel and cushion) and coma
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P5.1.3.4 Chromatic aberration in lens imaging
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P5.1.4.1 Magnifier and microscope
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P5.1.4.2 Keplers telescope and Galileos telescope
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P5.2.4.3 Absorption spectra of tinted glass samples - Recording and evaluating with a spectrophotometer
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P5.2.4.4 Absorption and fluorescence spectra of coloured liquids - Recording and evaluating with a spectrophotometer
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P5.2.5.1 Reflection spectra of different materials - Recording and evaluating with a spectrophotometer
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P5.4.2.1 Birefringence and polarization with calcareous spar
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P5.4.2.2 Quarter-wavelength and half-wavelength plate
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P5.4.2.3 Photoelasticity: Investigating the distribution of strains in mechanically stressed bodies
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P5.4.3.1 Rotation of the plane of polarization with qua
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P5.4.3.2 Rotation of the plane of polarization with sugar solutions
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P5.4.3.3 Building a half-shadow polarimeter with discrete elements
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P5.5.1.2 Determining the luminous intensity as a function of the distance from the light source - Measuring with Mobile-CASSY
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C3.3.1.1 Absorption spectra of pigments on a screen
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C3.3.1.2 Recording of absorption spectra with a spectrometer
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D3.4.6.4a Electrical power and the luminance of light bulbs (de)
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D5.1.2.1b Straight-line propagation of light
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D5.1.2.3 How an image is formed by a pinhole camera (de)
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D5.1.2.4 Inverse square law for light
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D5.1.3.1a Transparency and opacity of various solid bodies (de)
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D5.1.4.1a How a shadow is formed
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D5.1.4.2a Formation of umbra and penumbra (de)
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D5.4.2.1 Real images from a convex mirror
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D5.4.3.1 Real images from a convex lens (de)
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D5.4.3.2 Virtual images from a convex lens (de)
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D5.4.3.4 Verification of laws applying to formation of images (de)
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D5.4.3.5 Verification of lens equation (de)
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D5.4.3.6 Determining the focal point of a convex lens (de)
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D5.5.1.1 Magnification by a magnifying glass (de)
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D5.5.2.1 Design of microscopes and how they form images (de)
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D5.5.3.1 Design of telescopes and how they form images (de)
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D5.5.4.1 Design of slide projectors and how they form images (de)
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D5.5.5.1 Design of cameras and how they form images (de)
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D5.5.5.2 Focal length of objective lenses (de)
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D5.5.5.3 Zoom lens
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D5.5.6.1a Image formation and accommodation of the eye - Structure of the eye with lens model and translucent screen
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D5.5.6.2a Long-sightedness - Structure of the eye with lens model and translucent screen
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D5.5.6.3a Short-sightedness - Structure of the eye with lens model and translucent screen
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D5.5.6.4a Presbyopia Structure of the eye with lens model and translucent screen
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D5.6.1.2a Dispersion of light into colours upon passage through a prism
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D5.6.1.3 Detection of infrared radiation Set-up with a zinc sulphide screen
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D5.6.1.4a Infrared radiation in the continuous spectrum - Set-up with a zinc sulphide screen
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D5.6.1.4b Infrared radiation in the continuous spectrum - Set-up with IR-sensor (de)
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D5.6.1.5 Detection of ultraviolet radiation Set-up with an ultraviolet phosphorescent screen
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D5.6.1.6a Ultraviolet radiation in the continuous spectrum -Set-up with an ultraviolet phosphorescent screen
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D5.6.2.2a Additive colour mixing - Three-colour lamp
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D5.6.2.3a Additive colour mixing - Complementary colours - Three-colour lamp
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