Test
A self-contained and AC powered detector and speaker which produces a sharp click for each event when exposed to background radiation or sources of alpha, beta, or gamma radiation. Useful for qualitative comparisons, this unit can show the effects of distance, shielding, and activity of a radiation source.
How do the vanes turn under no apparent power?
For demonstrating Rutherford scattering by means of a gravitational analogue of inverse square law repulsion
Power supply unit for operating mercury filled and neon filled Franck-Hertz tube
Electrical Requirements | 115 V 50/60 Hz |
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Frequency | 50/60 Hz |
For Use With (Application) | Franck hertz experiment |
Enables to visualize path of beam and study effect of electric and magnetic fields.
Determines electron charge-to-mass ratio and studies mean electron velocities.
Highly evacuated electron tube for demonstrating wave nature of electrons.
Fully integrated system is capable of performing many basic nuclear demonstrations.
Have your students measure the ratio of charge to mass for an electron.
Individual 1 in. uncalibrated solid source.
Demonstrate how two identically sized cans absorb and radiate energy differently.
Includes | Lamp assembly with reflector and stand (bulb not included), thermometer, one smooth Metal can, one black Metal can, thermometer |
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Holds and mounts entire line of Teltron Student S Series and related accessories.
Demonstrates linear propagation of electrons in absence of applied electromagnetic fields.
Semi-evacuated electron tube filled with low-pressure helium and containing a tangential and axial electron gun.
The circuit board is intended for use with the Hall effect basic apparatus in order to measure the conductivity of undoped germanium as a function of temperature.