Consider a circular current-carrying loop lying on a horizontal table. If the current flows clockwise, apply the right-hand rule to explain the direction of the magnetic field produced inside the loop and outside it.
`The above diagram shows that a circular loop of wire lying in the plane of the table.
A battery is used to pass the current in a clockwise direction, as shown in the figure.
If we apply the right-hand thumb rule to the left side of the loop, then the direction of magnetic field lines inside the loop , while outside the loop, they .
If we apply the right-hand thumb rule to the right side of the loop, then the direction of magnetic field lines inside the loop , while outside the loop, they .
A battery is used to pass the current in a clockwise direction, as shown in the figure.
If we apply the right-hand thumb rule to the left side of the loop, then the direction of magnetic field lines inside the loop , while outside the loop, they .
If we apply the right-hand thumb rule to the right side of the loop, then the direction of magnetic field lines inside the loop , while outside the loop, they .