1. Experiment – The Motor Effect
Aim:
To investigate the motor effect, including the determination of the magnitude of the flux density
of the magnetic field producing the motor effect.
Background Information:
In this practical the flux density of a magnet will be found by measuring the force experienced by a
current carrying conductor placed in the field using a digital balance. From the definition of flux
density the force experienced by a current carrying conductor in a perpendicular field is given by:
F = B I L
Where B = Flux density (in teslas)
I = Current (in amps)
L = Length of conductor in the field (in metres)
Safety Warning:
Depending on the diameter and length of the sample of nichrome wire it might get quite hot, be
careful not to burn your fingers on the wire.
Method:
Set up the apparatus as in the diagram but don’t connect the multimeter to the Nichrome wire
until you are ready.
Make sure the leads are connected to the correct terminals and set the multi meter to
measure up to 10A.
Zero the balance using the tare button then test to see if everything is working by touching the
multimeter probe to the nichrome wire. The balance reading should go down or up (depending
on which pole of the magnet is facing towards the wire.
The current through the wire can be varied by moving the connector along the nichrome wire,
try this. The force should change.
2. By varying the just the current and measuring the force use a graphical method to determine
the flux density of the magnet. You can compare this with the value obtained with a magnetic
field sensor.