Magnetic field of single coils / Biot-Savart’s law with a teslameter

The magnetic field along the axis of wire loops and coils of different dimensions is measured with a teslameter (Hall probe). The relationship between the maximum field strength and the dimensions is investigated and a comparison is made between the measured and the theoretical effects of position.

  • Simple setup which allows an easy measurement of the magnetic flux density depending on different parameters
  • No calibration needed, Teslameter is calibrated  up to 1 T

Induction coil,300 turns,dia.40mm
Induction coil,300 turns,dia.32mm
Induction coil,300 turns,dia.25mm
Induction coil,200 turns,dia.40mm
Induction coil,100 turns,dia.40mm
Induction coil,150 turns,dia.25mm
Induction coil, 75 turns,dia.25mm
Reducing plug 4mm/2mm socket, 2
Hall probe, axial
PHYWE Teslameter, digital
Universal clamp
G-clamp
Support rod, stainless steel, l = 250 mm, d = 10 mm
Lab jack, 200 x 200 mm
Meter scale, l = 1000 mm
Distributor
Conductors, circular, set
Digital multimeter 2005
Connecting cord, 32 A, 500 mm, red
Connecting cord, 32 A, 500 mm, blue
PHYWE power supply, universal DC: 0…18 V, 0…5 A / AC: 2/4/6/8/10/12/15 V, 5 A
Right angle clamp expert
Barrel base expert

  1. To measure the magnetic flux density in the middle of various wire loops with the Hall probe and to investigate its dependence on the radius and number of turns.
  2. To determine the magnetic field constant.
  3. To measure the magnetic flux density along the axis of long coils and compare it with theoretical values.
  • Wire loop
  • Biot-Savart’s law
  • Hall effect
  • Magnetic field
  • Induction
  • Magnetic flux density

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Product number

P2430201

Magnetic field of single coils Biot-Savart's law with a teslameter

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