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A highly conducting ring of radius `R` is perpendicular to and concentric with the axis of a long solenoid as shown in Fig. 3.182. The ring has a narrow gap of width `delta` in its circumference. The cross-sectional area of the solenoid is a. The solenoid has a unifoem unitial field of magnitude `B(t) = B_(0) + betat`, where `beta gt 0`. Assuming that no charge can flow across the gap, the face (s) accumulating an excess of positive charge is /are

A

(a) `F_(1)`

B

(b) `F_(2)`

C

( c) `F_(1) and F_(2)` both

D

(d) difficult to conclude as data given are insufficient

Text Solution

Verified by Experts

The correct Answer is:
A, D
(a,d): Apply Lenz's law
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