FUNDAMENTALS OF ATOMIC PHYSICS

A highly versatile experiment from the fascinating world of atomic and quantum physics covering the following topics:   Normal Zeeman Effect Anomalous Zeeman Effect Hyperfine Structure Splitting ... more

Experiment: Fabry-Pérot Interferometer, Determination of the Bohr Magneton   Note: This setup can also be used to perform the experiment "Normal Zeeman Effect" (UE5020850). Additionally, the experiment can be expanded ... more

Objective: Determine Planck’s constant using the decelerating voltage method In a modified version of a classic set-up, light of known frequency passes through a ring-shaped anode to collide with a cathode, where it causes electrons ... more

Objective: Carry out Millikan’s experiment to onfirm the value of the elementary charge with the help of charged oil drops Between the years 1910 and 1913, Robert Andrews Millikan managed to measure the elementary electric charge to ... more

Objective: Observe the diffraction of electrons on polycrystalline graphite and confirm the wave nature of electrons The diffraction of electrons on a polycrystalline graphite foil provides evidence for the wave nature of electrons. It is ... more

Experiment to Demonstrate Normal Zeeman Effect This experiment involves observing the splitting of the red cadmium line perpendicular in transverse configuration or parallel in longitudinal configuration to an external magnetic field. The ... more

Experiment to Demonstrate Normal Zeeman Effect Note: This experimental setup can also be used to conduct experiment "Fabry-Pérot Interferometer, Determination of the Bohr Magneton" (UE5020900). Additionally, the ... more

For the experiment to demonstrate the normal Zeeman effect. The casing of the lamp is made of heat-resistant plastic and has both longitudinal and lateral openings, such that it is only necessary to rotate the electromagnet by 90° when swapping ... more

For the experiment to demonstrate the Zeeman effect. The casing of the lamp is made of heat-resistant plastic and has both longitudinal and lateral openings, such that it is only necessary to rotate the electromagnet by 90° when swapping ... more

Objective: Determine Planck’s constant using the decelerating voltage method In a modified version of a classic set-up, light of known frequency passes through a ring-shaped anode to collide with a cathode, where it causes electrons to be ... more

Objective: Carry out Millikan’s experiment to onfirm the value of the elementary charge with the help of charged oil drops Between the years 1910 and 1913, Robert Andrews Millikan managed to measure the elementary electric charge to an unprecedented ... more

Objective: Observe the diffraction of electrons on polycrystalline graphite and confirm the wave nature of electrons The diffraction of electrons on a polycrystalline graphite foil provides evidence for the wave nature of electrons. It is ... more