If a coil of metal wire is kept stationary in a non-uniform magnetic field, then
- AAn e.m.f. is induced in the coil
- B$A$ current is induced in the coil
- CNeither e.m.f. nor current is induced
- DBoth e.m.f. and current is induced
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$A$ coil having an area $2\,m^2$ is placed in a magnetic field which changes from $1\,Wb/m^2$ to $4\,Wb/m^2$ in an interval of $2$ seconds. The $e.m.f.$ induced in the coil will be......$V$.
Easy
View SolutionFaraday's laws are a consequence of the conservation of
Statement $-1$: When a magnet is made to fall freely through a closed coil,its acceleration is always less than acceleration due to gravity $(g)$.
Statement $-2$: Current induced in the coil opposes the motion of the magnet,as per Lenz's law.
Statement $-2$: Current induced in the coil opposes the motion of the magnet,as per Lenz's law.
Medium
View SolutionThe magnetic flux through a loop of resistance $10 \Omega$ is given by $\phi = 5t^2 - 4t + 1 \text{ Wb}$. How much current is induced in the loop after $0.2 \text{ s}$ (in $\text{ A}$)?
$A$ bar magnet is moved along the axis of a copper ring placed far away from the magnet. Looking from the side of the magnet,an anticlockwise current is found to be induced in the ring. Which of the following may be true?
Medium
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