Goniometer

LD 554831
Goniometer
  8  Goniometer

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Description

With two independently controllable stepper motors which move the sensor and target arm. The motion is defined using the keys in the control panel of the X-ray apparatus (554 800 and 554 801) and initiated manually or automatically. Included in the scope of supply of the X-ray apparatus (554 801).

Technical data

  • Operating principle: stepping motors for target and sensor arms, which can be electronically coupled
  • Angular range of target: unlimited (0°… 360°)
  • Angular range of sensor: approx. -10° to +170°
  • Angular resolution: 0.1°
    Angular resolution: 0.01° with HD accessory X-ray (554 835)
  • Length of sensor arm: approx. 40 - 110 mm
  • Width of sensor slit: 1 mm
  • Area of target platform: 25 mm x 28 mm
  • Sample clamping width: 3 - 9 mm
  • Dimensions: 13.5 cm x 22.5 cm x 12.5 cm
  • Weight: 3 kg

Related Documents

PDF (Instruction Sheet) PDF (Instruction Sheet) [554 831] Goniometer
PDF (Experiment description) PDF (Experiment description) P6.3.2.1 Investigating the attenuation of X-rays as a function of the absorber material and absorber thickness
PDF (Experiment description) PDF (Experiment description) P6.3.2.2 Investigating the wavelength dependency of the attenuation coefficient
PDF (Experiment description) PDF (Experiment description) P6.3.2.3 Investigating the relationship between the attenuation coefficient and the atomic number Z
PDF (Experiment description) PDF (Experiment description) P6.3.5.1 Recording and calibrating an X-ray energy spectrum
PDF (Experiment description) PDF (Experiment description) P6.3.5.2 Recording the energy spectrum of a molybdenum anode
PDF (Experiment description) PDF (Experiment description) P6.3.5.3 Recording the energy spectrum of a copper anode
PDF (Experiment description) PDF (Experiment description) P6.3.5.4 Investigation of the characteristic spectra as a function of the element's atomic number: K-lines
PDF (Description from CASSY Lab) PDF (Description from CASSY Lab) P6.3.5.4 Investigation of the characteristic spectra as a function of the element's atomic number: K-lines
PDF (Experiment description) PDF (Experiment description) P6.3.5.5 Investigation of the characteristic spectra as a function of the element's atomic number: L-lines
PDF (Description from CASSY Lab) PDF (Description from CASSY Lab) P6.3.5.5 Investigation of the characteristic spectra as a function of the element's atomic number: L-lines
PDF (Experiment description) PDF (Experiment description) P6.3.5.6 Energy-resolved Bragg reflection in different orders of diffraction
PDF (Description from CASSY Lab) PDF (Description from CASSY Lab) P6.3.5.6 Energy-resolved Bragg reflection in different orders of diffraction
PDF (Experiment description) PDF (Experiment description) P6.3.6.1 Fine structure of the characteristic X-ray radiation of a molybdenum anode
PDF (Experiment description) PDF (Experiment description) P6.3.6.11 High-resolution fine structure of the characteristic X-ray radiation of a molybdenum anode (de)
PDF (Experiment description) PDF (Experiment description) P6.3.6.12 High-resolution fine structure of the characteristic X-ray radiation of a copper anode (de)
PDF (Experiment description) PDF (Experiment description) P6.3.6.13 High-resolution fine structure of the characteristic X-ray radiation of an iron anode (de)
PDF (Experiment description) PDF (Experiment description) P6.3.6.14 High-resolution fine structure of the characteristic X-ray radiation of a silver anode (de)
PDF (Experiment description) PDF (Experiment description) P6.3.6.15 High-resolution fine structure of the characteristic X-ray radiation of a tungsten anode (de)
PDF (Experiment description) PDF (Experiment description) P6.3.6.17 High-resolution fine structure of the characteristic X-ray radiation of a gold anode (de)
PDF (Experiment description) PDF (Experiment description) P6.3.6.2 Fine structure of the characteristic X-ray radiation of a copper anode
PDF (Experiment description) PDF (Experiment description) P6.3.6.3 Fine structure of the characteristic X-ray radiation of an iron anode
PDF (Experiment description) PDF (Experiment description) P6.3.6.4 Fine structure of the characteristic X-ray radiation of a silver anode (de)
PDF (Experiment description) PDF (Experiment description) P6.3.6.5 Fine structure of the characteristic X-ray radiation of a tungsten anode
PDF (Experiment description) PDF (Experiment description) P6.3.6.7 Fine structure of the characteristic X-ray radiation of a gold anode (de)
PDF (Experiment description) PDF (Experiment description) P6.3.7.1 Compton effect: verifying the energy loss of the scattered X-ray quantum
PDF (Experiment description) PDF (Experiment description) P6.3.7.2 Compton effect: Measurement the energy of the scattered photons as a function of the scattering angle
PDF (Description from CASSY Lab) PDF (Description from CASSY Lab) P6.3.7.2 Compton effect: Measurement the energy of the scattered photons as a function of the scattering angle
PDF (Experiment description) PDF (Experiment description) P6.3.8.1 Measurement and presentation of a computed tomogram with the computed tomography module
PDF (Experiment description) PDF (Experiment description) P6.3.8.11 Measurement and presentation of a computed tomogram with the X-ray image sensor
PDF (Experiment description) PDF (Experiment description) P6.3.8.12 Computed tomography of simple geometrical objects with the X-ray image sensor
PDF (Experiment description) PDF (Experiment description) P6.3.8.13 Medical basics of computed tomography with the X-ray image sensor
PDF (Experiment description) PDF (Experiment description) P6.3.8.15 Computed tomography of biological samples with the X-ray image sensor
PDF (Experiment description) PDF (Experiment description) P6.3.8.2 Computed tomography of simple geometrical objects with the computed tomography module
PDF (Experiment description) PDF (Experiment description) P6.3.8.3 Medical basics of computed tomography with the computed tomography module
PDF (Experiment description) PDF (Experiment description) P6.3.8.5 Computed tomography of biological samples with the computed tomography module
PDF (Experiment description) PDF (Experiment description) P7.1.2.1 Bragg reflection: determining the lattice constants of monocrystals
PDF (Experiment description) PDF (Experiment description) P7.1.2.4 Debye-Scherrer Scan: determining the lattice plane spacings of polycrystalline powder samples
PDF (Experiment description) PDF (Experiment description) P7.5.1.1 Application of X-ray fluorescence for the non-destructive analysis of the chemical composition
PDF (Description from CASSY Lab) PDF (Description from CASSY Lab) P7.5.1.1 Application of X-ray fluorescence for the non-destructive analysis of the chemical composition
PDF (Experiment description) PDF (Experiment description) P7.5.1.2 Determination of the chemical composition of a brass sample by X-ray fluorescence analysis
PDF (Description from CASSY Lab) PDF (Description from CASSY Lab) P7.5.1.2 Determination of the chemical composition of a brass sample by X-ray fluorescence analysis
PDF (Experiment description) PDF (Experiment description) C3.6.5.1 X-ray fluorescence analysis of chemical composition
PDF (Experiment description) PDF (Experiment description) C3.6.5.2 The chemical composition of a brass specimen
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