Magnetic Field Pattern
The
figure (a) illustrated the field pattern produced by a solenoid when
current pass through it. The field lines in the solenoid are close to
each other, showing that the magnetic field is stronger inside the
solenoid. We can also see that the field lines are parallel inside the
solenoid. This shows that the strength of the magnetic filed is about
uniform inside the solenoid.
We can also see that the magnetic
field of a solenoid resembles that of the long bar magnet, and it
behaves as if it has a North Pole at one end and a South Pole at the
other.
[Figure (a)]Determining the Pole of the Magnetic Field
The pole of the magnetic field of a solenoid can be determined by the Right Hand Grip Rule. Imagine your right-hand gripping the coil of the solenoid such that your fingers point the same way as the current. Your thumb then points in the direction of the field. Since the magnetic field line is always coming out from the North Pole, therefore the thumb points towards the North Pole.
[Figure (b)]There is another method can be used to determine the pole of the magnetic field forms by the solenoid.
Try to visualise that you are viewing the solenoid from the 2 ends as illustrated in figure (c) below. The end will be a North pole if the current is flowing in the aNticlockwise, or a South pole if the current is flowing in the clockwiSe direction.
Strength of the Magnetic FieldThe strength of the magnetic field can be increased by
- Increasing the current,
- Increasing the number of turns per unit length of the solenoid,
- Using a soft-iron core within the solenoid.
