Magnetic moment in the magnetic field Principle A conductor loop carrying a current in an uniform magnetic field experiences a torque. This is determined as a function of the radius, of the number of turns and the current in the conductor loop and of the strength of the external field. Benefits - Particularly homogeneous magnetic field and high flux density due to large Helmholtz coil diameter
- Torsion dynamometer offers highly precise measurements
Tasks Determination of the torque due to a magnetic moment in a uniform magnetic field, as a function - of the strength of the magneticfield,
- of the angle between the magnetic field in the magnetic moment
- of the strength of the magnetic moment.
Learning objectives - Torque
- Magnetic flux
- Uniform magnetic field
- Helmholtz coils
Scope of delivery |
Helmholtz coils, one pair
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06960-06
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1
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Conductors, circular, set
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06404-00
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1
| |
Torsion dynamometer, 0.01 N
|
02416-00
|
1
| |
Coil holder for 02416-00
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02416-02
|
1
| |
Distributor
|
06024-00
|
1
| |
PHYWE Power supply, universal, analog display DC: 18 V, 5 A / AC: 15 V, 5 A
|
13503-93
|
1
| |
PHYWE Variable transformer with digital display DC: 0...20 V, 12 A / AC: 0...25 V, 12 A
|
13542-93
|
1
| |
PHYWE Digital multimeter, 600V AC/DC, 10A AC/DC, 20 MΩ, 200 µF, 20 kHz, −20°C…760°C
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07122-00
|
2
| |
Support base DEMO
|
02007-55
|
1
| |
Stand rods, stainless steel, various sizes
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02033-00
|
1
| |
Right angle clamp expert with fulcrum screw
|
02054-00
|
2
| |
Connecting cable, 32 A, red, various lengths
|
07362-01
|
5
| |
Connecting cable, 32 A, blue, various lengths
|
07362-04
|
5
|
|
Service
