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
- 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.
- To determine the magnetic field constant.
- 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