A conducting ring of radius r is placed in a varying magnetic field perpendicular to the plane of the ring. If the rate at which the magnetic field varies is x, the electric field intensity at any point of the ring is

Question

A conducting ring of radius r is placed in a varying magnetic field perpendicular to the plane of the ring. If the rate at which the magnetic field varies is x, the electric field intensity at any point of the ring is (A) r x (B) (r x/2) (C) 2 r x (D) (4 r/x)

Tardigrade Admin · Accepted Answer

Let vecE be the electric field intensity at a point on the circumference of the ring. Then, the emf induced ε= oint vecE ⋅ d vecl where d vecl is a length element of the ring. Since | vecE| is constant and vecE | d vecl, ∴ ε=E(2 π r)...(i) Also, the induced emf is ε=(d φ/d t)=π r2 (d B/d t)=π r2 x...(ii) Equating (i) and (ii), we get E=(r x/2)

Q. A conducting ring of radius $r$ is placed in a varying magnetic field perpendicular to the plane of the ring. If the rate at which the magnetic field varies is $x$ , the electric field intensity at any point of the ring is

r x

$\frac{r x}{2}$

2 r x

$\frac{4 r}{x}$

Q. A conducting ring of radius r is placed in a varying magnetic field perpendicular to the plane of the ring. If the rate at which the magnetic field varies is x, the electric field intensity at any point of the ring is

r x

2rx​

2 r x

x4r​

Q. A conducting ring of radius $r$ is placed in a varying magnetic field perpendicular to the plane of the ring. If the rate at which the magnetic field varies is $x$ , the electric field intensity at any point of the ring is

$\frac{r x}{2}$

$\frac{4 r}{x}$