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Balmer – Rydberg Experiment : EXP200160
Balmer – Rydberg Experiment
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Camera model : EXP200150
The didactic digital camera model is an excellent tool for understanding how a camera works.
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Diffraction and interferences : EXP200070 or EXP200071
This optical pack is designed to highlight the diffraction phenomenon by a number of components : slits, lines and holes.
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Dispersion of prims and diffraction grattings : EXP200020 or EXP200021
The LEMARDELEY Spectrogoniometer is used to study prisms and diffraction gratings.
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Fabry-Pérot study : EXP200110
The Fabry-Perot interferometer consists of two parallel semi-reflecting plates (beamsplitters), separated by a distance L (The plate reflection coefficient is greater than 90%).
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Mach-Zender study : EXP200100
The Mach-Zender interferometer consists of two semi-reflecting plates (beamsplitters) and wo mirrors. A light beam is divided into two, after which both beams are recombined by eans of a semi-reflecting mirror.
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Michelson’s experiments : EXP200090 or EXP200091
The Michelson interferometer is an optical device producing interferences by amplitude division.
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Newton’s rings : EXP200080
A very slightly convex lens is placed in contact with the flat surface of a glass slide. It then
forms an air wedge with a curvilinear boundary surface. -
Reflection – Refraction : EXP200030
This experiment will let you view light at the surface of a diopter.
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Spectrometry – Spectrophotometry : EXP200140 or EXP200141
The SPID spectrometer is designed to study simple components belonging to the light spectrum of various light sources. It is also used to study filters, solid or not, in transmission or absorption. An absorption model allows you to implement with ease Beer Lambert’s law and to observe chemical kinetic curves.
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The lens law : EXP200010 or EXP200011
This comprehensive optical pack will allow you to implement the main methods for studying geometrical optics.
