Figure 3.188 shows two parallel and coax...

Figure 3.188 shows two parallel and coaxial loops. The smaller loop (radius r) is above the larger loop (radius R), by distance `x gtgt R`. The magnetic field due to current `i` in the larger loop is nearly constant throughout the smaller loop. Suppose that `x` is increasing at a constant rate of `dx//dt = v`.

The induced emf in the smaller loop is

(a) `(mu_(0)piiR^(2)r^(2))/(x^(4))v`

(b) `(mu_(0)pi iR^(2)r^(2))/(2x^(4))v`

( c) `(3)/(2)(mu_(0)piiR^(2)r^(2))/(x^(4))v`

(d) `(mu_(0)pi iR^(2)r^(2))/(3x^(4))v`

Text Solution

Verified by Experts

The correct Answer is:

(c )Magnetic field on the axis of a circular coil is given by
`B = (mu_(0)iR^(2))/(2(R^(2) + x^(2))^(2)`
Since `xgtgt R`, therefore, nagnetic field at the centre of the smaller loop is
`B~~(mu_(0)piiR^(2)r^(2))/(2x^(3))` ltbr. Flux linked with coil is
`phi = B(pir^(2)) = (mu_(0)piiR^(2)r^(2))/(2x^(3))`
From Faraday's law we have
`E = -(dphi)/(dt) = (3)/(2)(mu_(0)piiR^(2)r^(2))/(x^(4))v`

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