Explain the construction and working of an electric motor
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Answer:
power supply – In general, a simple motor has a DC power source. It provides power for the armature of the motor or field coils. Field Magnet (can be a permanent magnet or an electromagnet) – The magnetic field by virtue of Fleming's left-hand law, helps to produce a torque on the rotating armature coil.
An electric motor is an electrical machine that converts electrical energy into mechanical energy. Most electric motors operate through the interaction between the motor's magnetic field and electric current in a wire winding to generate force in the form of torque applied on the motor's shaft
Principle - An electric motor works on the principle that a current carrying conductor placed in a magnetic field experiences a force, the direction of force is given by Fleming’s left hand rule.
Construction - As shown in figure, an electric motor consists of the following main parts.
- Field magnet - It is a strong horse shoe type magnet with concave poles.
- Armature - It is a rectangular coil ABCD having a large number of turns of the insulated copper wire wound over a soft iron core. The armatures is placed between the poles of the field magnet and it can be rotated about an axis perpendicular to the magnetic field line.
- Split ring commutator - it consists of a cylindrical metal ring split into two halves S1 and S2. The two ends A and D of the armature coil are connected to split rings, S1 and S2 respectively. As the coil is rotated, the split rings also rotate about the same axis of rotation. The function of the split ring commutator is to reverse the direction of current in the coil after every half rotation.
- Brushes - Two graphite or flexible metal rods maintain a sliding contact with split rings S1 and S2 alternately.
- Battery - A battery of few cells is connected to the brushes. The current from the battery flows to the armature coil through the brushes and the split rings.
Working - Initially, suppose the plane of the coil is horizontal. The split ring S1touches the brush B1 and split ring S2 touches the brush B2. The current in coil flows in the direction ABCD, as shown in the figure(a).
Clearly, the currents in arms AB and CD are in opposite directions. On applying Fleming’s left hand rule for the direction of force on a current-carrying conductor in a magnetic field, we find that the force acting on arm AB pushes it downwards while the force acting on the arm CD pushed it upwards. Thus the armature coil along with the axle rotates anti clockwise. After half a rotation, as shown in figure (b),
the split ring S1 comes in contact with brush B2 and S2 in contact with brush B1. Therefore, the current in the coil gets reversed and flows along the path DCBA. A device that reverse the direction of flow of current through a circuit is called commutator. In electric motors., the split ring acts as a commutator.
Thus the arm AB is now pushed up and the arm CD is pushed down. Therefore, the coil and the axle rotate half a turn more in the same direction. The reversing of the current is repeated at each half rotation, giving rise to continuous rotation of the coil and to the axle.
Hope it helps
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