11POINT7ONLINE

Magnetic field due to current carrying Conductor

Magnetic field due to current carrying Conductor in Straight ConductorMagnetic field due to current carrying Conductor in Circular LoopMagnetic field due to current carrying Conductor in Solenoid
The magnetic field in the straight conductor in a closed loop which is inversely to the distance from the conductorThe magnetic field produces around the circular loop in concentric circles which would become larger and larger as we move away from the wire. And inversely to the distance from the circular loop.Solenoid = It is a coil of many circular turns of insulated copper wire wrapped closely in the shape of a cylinder. The Magnetic field produced same as bar magnet. Ie. North pole and south pole and magnetic field is the same at all point inside the solenoid.
Magnetic field max. at the pole, goes on diseasing as moving away from the conductor.At the centre of the circular loop, the arcs of the big circles would appear as straight lines.A Strong magnetic field produced inside a solenoid can be used to magnetize a piece of magnetic material, like soft iron, when placed inside the coil. The magnet so formed is called electromagnet
By applying the right hand rule, direction are foundedBy applying the right hand rule, direction are founded
 
 If there is circular coil having “n” turns, the field produced is ”n” times as large as that produced by a single turn 

Leave a Reply

error: Content is protected !!
Open chat
%d bloggers like this: