Technical data

Generation of an induced voltage with electromagnets

Article no: P1376600

Principle

It is assumed that the students know that a voltage is induced in a coil, as long as the magnetic field contained by the coil changes.
When the induction process can be triggered by a permanent magnet, then this must also be possible with an electromagnet. The students should check this practically. They should thereby consolidate their knowledge, that the change in the field must not necessarily be brought about by a (mechanical) movement of the magnet and the coil relative to each other.

Benefits

No additional cable connections between the building blocks needed - clear arragned and quick setup
Contact saftey due to puzzle blocks system
Corrosion-free gold plated contacts
Doubled earning sucess: Electric circuit diagram on top, real components can be seen unterside

Tasks

Can a voltage be induced by means of an electromagnet?

Determine if a voltage can be induced by an electromagnet and examine in which way this is possible.

Scope of delivery

Straight connector module, SB	05601-01	1
Angled connector module, SB	05601-02	4
Interrupted connector module with sockets, SB	05601-04	2
Junction module, SB	05601-10	2
Straight connector module with socket, SB	05601-11	1
On-off switch module, SB	05602-01	1
Coil, 400 turns	07829-01	2
Coil, 1600 turns	07830-01	1
Iron core, U-shaped, laminated	07832-00	1
Iron core, I-shaped, laminated	07833-00	1
Galvanometer movement	07875-00	1
Galvanometer scale	07876-00	1
Notch bearing with plug	07877-00	1
Connecting cable, 32 A, red, various lengths	07360-01	2
Connecting cable, 32 A, blue, various lengths	07360-04	2
Connecting cable, 32 A, red, various lengths	07361-01	2
Connecting cable, 32 A, blue, various lengths	07361-04	2
PHYWE Power supply, 230 V, DC: 0...12 V, 2 A / AC: 6 V, 12 V, 5 A	13506-93	1
PHYWE Analog multimeter, 600V AC/DC, 10A AC/DC, 2 MΩ, overload protection	07021-11	1