Characteristic X-ray lines of different anode materials / Moseley’s law

Moseley’s law describes the relationship between the energy of the Ka lines of characteristic X-ray spectra and the atomic number. In this experiment, the characteristic X-ray lines of various different anode materials are determined in order to verify Moseley’s law.

Geiger-Mueller counter tube, type B, BNC cable 50 cm

XR 4.0 X-ray LiF crystal, mounted

XR 4.0 X-ray Diaphragm tube d = 2 mm

XR 4.0 X-ray goniometer

XR 4.0 expert unit, X-ray unit, 35 kV

XR 4.0 Software measure X-ray

Data cable USB, plug type A/B, 1.8 m

XR 4.0 X-ray Plug-in Cu tube

XR 4.0 X-ray Plug-in Mo tube

XR 4.0 X-ray Plug-in Fe tube

  1. Record the X-ray spectra of the three X-ray tubes.
  2. Determine the wavelengths and frequencies of the characteristic X-ray lines based on the Bragg angles of the lines.
  3. Create the Moseley lines and determine the Rydberg constant and screening constant.
  • Characteristic X-radiation
  • Bohr model
  • Energy levels
  • Binding energy
  • Moseley’s law
  • Rydberg frequency
  • Screening constant
  • Bragg scattering

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Product number

P2541001

Characteristic X-ray lines of different anode materials Moseley's law

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