The strength of a magnetic field is
usually measured in terms of a quantity called the magnetic flux density of the field, B. A
definition of B requires a consideration of the forces produced by electromagnetic
fields.

You will know that when a wire carrying a current is placed in a magnetic field the
wire experiences a force due to the interaction between the field and the moving charges in the
wire. A very good demonstration is the so-called catapult field experiment in which a wire
carrying a d.c. current can be made to move in the field of two flat magnets.

The fields of the wire, the magnets and the combined fields are shown in Figures 1,2 and 3. Notice that the wire moves away from the area of highest field intensity (where the magnetic field lines are closest) to a region lower intensity.

The force F on the wire in Figure 4 can be shown to be proportional to

(a) the current on the wire I,

(b)
the length of the conductor in the field L,

(c) the sine of the angle q that the conductor makes
with the field , and

(d) the strength of the field - this is measured by a quantity known as
the magnetic flux density B of the field. The force is given by the equation:

The units for B are tesla (T).

The greatest force occurs when q = 90

Calculate the force on a power cable of length 200 m carrying a current of 200 A in a direction N 300E at a place where the horizontal component of the Earth's magnetic field is 10

The wire will experience an upward force given by F = BIL sin = 10

Fleming's left- hand rule gives the direction of motion for the case when field and current are at right angles (see Figures 5, 6 and 7).

The

For a large permanent magnet of the type used in schools the flux density between the poles is about 1 T, magnadur magnets have a flux density of some 0.08 T close to their poles and the horizontal component of the Earth's magnetic field is about 10

Having defined B we can express the magnetic flux passing through a surface as BA where A is the area of the surface at right angles to the field. Magnetic flux (f) is measured in webers (Wb).