Technical data

Specific charge of the electron - e/m

Article no: P2510200

Benefits

Neon-filled narrow beam tube for perfect visibility of the electron beam
High-precise and easy to perform measurements with the built-in fluorescent ladder construction
Suitable for demonstration and lab courses as well
Large Helmholtz coils to generate a large volume homogeneous magnetic field. Can be used in a lot of different experiments
The observation chamber allows to perform the experiment in spite of daylight

Learning objectives

Cathode rays
Lorentz force
Electron in crossed fields
Electron mass
Electron charge

Principle

Electrons are accelerated in an electric field and enter a magnetic field at right angles to the direction of motion. The specific charge of the electron is determined from the accelerating voltage, the magnetic field strength and the radius of the electron orbit.

Tasks

Determination of the specific charge of the electron (e/m
0
) from the path of an electron beam in crossed electric and magnetic fields of variable strength.

Scope of delivery

PHYWE Narrow beam tube	06959-00	1
Helmholtz coils, one pair	06960-06	1
e/m - Observation chamber	06959-01	1
PHYWE Power supply, regulated DC: 0...12 V, 0,5 A; 0...650 V, 50 mA / AC: 6,3 V, 2 A	13672-93	1
PHYWE Power supply, universal, analog display DC: 18 V, 5 A / AC: 15 V, 5 A	13503-93	1
PHYWE Digital multimeter, 600V AC/DC, 10A AC/DC, 20 MΩ, 200 µF, 20 kHz, −20°C…760°C	07122-00	2
Safety connecting cable, 32A, l = 25cm, red	07335-01	1
Safety connecting cable ,32A, l = 25cm, blue	07335-04	1
Safety connecting cable, 32A, l = 100cm, red	07337-01	2
Safety connecting cable, 32A, l = 100cm, blue	07337-04	2
Safety connecting cable, 32A, l = 100cm, yellow	07337-02	3
Connecting cable, 32 A, red, various lengths	07363-01	3
Connecting cable, 32 A, blue, various lengths	07363-04	1
holder for fine beam tube for 06960-06	06962-01	2