Replacement mercury tube for the following products:
Franck-Hertz tube with Hg filling and heating furnace (115 V /50/60 Hz);
item no. : 1006794 or 1023094
and
Franck-Hertz tube with Hg filling and heating furnace ...
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Replacement Franck-Hertz mercury tube (mounted on support plate) for the following products:
Franck-Hertz tube with Hg filling and heating furnace (115 V /50/60 Hz);
item no. : 1006794 or 1023094
and
Franck ...
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Electron tube mounted on terminal base for investigating the design and operation of modern cathode ray tubes. The electron beam can be deflected by an electric field produced by the deflection plates integrated into the tube, and by a magnetic ...
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For observing luminescence during electric discharge in gases at reduced pressure, and investigating cathode rays and canal rays occurring at low pressures outside the discharge path.
Glass tube with graded seal, disc-shaped, perforated electrodes ...
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The quantization of energy, as well as the generation, registration, and analysis of spectra and the associated experimental confirmation of models, are important components of most curricula around the world. The well-known 1913 experiment ...
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The quantization of energy, as well as the generation, registration, and analysis of spectra and the associated experimental confirmation of models, are important components of most curricula around the world. The well-known 1913 experiment ...
more
The heating chamber can be employed to conduct the Franck-Hertz experiment or the sodium resonance fluorescence experiment in safety. It consists of a powder-coated sheet steel casing with two viewing windows. The front plate is attached ...
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The heating chamber can be employed to conduct the Franck-Hertz experiment or the sodium resonance fluorescence experiment in safety. It consists of a powder-coated sheet steel casing with two viewing windows. The front plate is attached ...
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Adapter for electron diffraction tube D (U19171) for connection of the heater voltage via safety experiment leads. Includes internal protective circuitry to protect the heating filament against excess voltage. Dimensions match the three-pole ...
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Adapter for electron tubes D for connection of the heater voltage via safety experiment leads. Includes internal protective circuitry to protect the heating filament against excess voltage. Dimensions match the two-pole connector for the tubes ...
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The quantization of energy, as well as the generation, registration, and analysis of spectra and the associated experimental confirmation of models, are important components of most curricula around the world. The well-known 1913 experiment ...
more
The quantization of energy, as well as the generation, registration, and analysis of spectra and the associated experimental confirmation of models, are important components of most curricula around the world. The well-known 1913 experiment ...
more
Spare Tube for Complete Fine Beam Tube System 1013843.
Gas filling: Neon
Gas pressure: 1.3x10-5 hPa
Bulb diameter: 165 mm
Orbit diameter: 20 … 120 mm
Measurement mark spacing: 20 mm
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Experiment Topics:
Deflection of electrons in a closed circular path inside a magnetic field.
Determination of specific charge of an electron e/m.
For examining the deflection of electron beams in a uniform magnetic field ...
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The tube holder accommodates all tubes of the series D and their accessories, such as the Helmholtz Coils D (100644) and Auxiliary Coil (100645).
(1000656). The tube holder consists of a robust base plate with an upright stanchion and ...
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The Helmholtz coils are used to create magnetic fields for deflecting electron beams and are attached to the tube holder D (1008507). The tube holder allows the coils to be set up in Helmholtz configuration to generate a highly uniform magnetic ...
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The auxiliary is used to create a magnetic field perpendicular to the axis of a tube. When used in conjunction with the Helmholtz pair of coils D and S (1000644 and 1000611) and the Perrin tube D and S (1000650 and 1000616) two orthogonal ...
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The following topics can be discussed with this highly evacuated tube:
• Edison-Richardson-Effect, thermionic emission
• Diode characteristics, space charge region, Schottky-Langmuir law
•  ...
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The following topics can be discussed with this highly evacuated tube:
• Edison-Richardson-Effect, thermionic emission
• Determining the negative charge of electrons
• Recording triode characteristics ...
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The following topics can be discussed with this highly evacuated tube:
• Luminescence of different phosphors when excited by electrons (cathodoluminescence)
• Luminescence of different phosphors when excited ...
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The following topics can be discussed with this highly evacuated tube:
• Linear propagation of cathode rays / of electron beams
• Electrostatic charging effects
• Electron deflection by ...
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The following topics can be discussed with this highly evacuated tube:
• Evidence of the particle nature of cathode beam
• Establishment of the polarity of cathode beam
• Estimation of the ...
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The following topics can be discussed with this highly evacuated tube:
• Investigate the deflection of an electron beam by a magnetic field
• Investigate the deflection of an electron beam by an electric field ...
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The following topics can be discussed with this Helium-filled, partial-vacuum electron tube:
• Discharge, evidence of positive charge carriers
• The IA – UA characteristic of a thyratron
&bull ...
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The following topics can be discussed with this Neon-gas filled, partial-vacuum electron tube:
• Determination of the specific charge e/m for tangential injection and perpendicular magnetic field
• Observation ...
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