Qstnid -Iv-31-a-in The Loop Abc, (B) In The Segment Bc, (C) In The Segment Ac And (D) In The Segment Ab. <Span Style="background-color: #Ffff00;">figure</span></span> (B) In The Segment Bc, (C) In The Segment Ac And (D) In The Segment Ab. <Span Style="background-color: #Ffff00;">figure</span></span> - 38: Electromagnetic Induction - Neet-xii-physics

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NEET-XII-Physics

38: Electromagnetic Induction

with Solutions - page 8

Qstn# iv-31-a Prvs-Qstn Next-Qstn

#31-a
in the loop abc, (b) in the segment bc, (c) in the segment ac and (d) in the segment ab.
Figure (b) in the segment bc, (c) in the segment ac and (d) in the segment ab.
Figure
Ans : The emf induced in loop abc is zero, as there is no change in the magnetic flux through it. (b) The emf induced is given by
`` e=\left(\stackrel{\to }{v}\times \stackrel{\to }{B}\right).\stackrel{\to }{l}``
Emf induced in segment bc, e = Bvl (With positive polarity at point C) (c) There is no emf induced in segment bc, as the velocity is parallel to its length. (d) The emf induced in segment ab is calculated by the following formula:
e = B.v. (Effective length of ab)
The effective length of ab is along the direction perpendicular to its velocity.
Emf induced, e = B.v.(bc)
Page No 308: (b) The emf induced is given by
`` e=\left(\stackrel{\to }{v}\times \stackrel{\to }{B}\right).\stackrel{\to }{l}``
Emf induced in segment bc, e = Bvl (With positive polarity at point C) (c) There is no emf induced in segment bc, as the velocity is parallel to its length. (d) The emf induced in segment ab is calculated by the following formula:
e = B.v. (Effective length of ab)
The effective length of ab is along the direction perpendicular to its velocity.
Emf induced, e = B.v.(bc)
Page No 308:

#31-b
in the segment bc,
Ans : The emf induced is given by
`` e=\left(\stackrel{\to }{v}\times \stackrel{\to }{B}\right).\stackrel{\to }{l}``
Emf induced in segment bc, e = Bvl (With positive polarity at point C)

#31-c
in the segment ac and
Ans : There is no emf induced in segment bc, as the velocity is parallel to its length.

#31-d
in the segment ab.
Figure
Ans : The emf induced in segment ab is calculated by the following formula:
e = B.v. (Effective length of ab)
The effective length of ab is along the direction perpendicular to its velocity.
Emf induced, e = B.v.(bc)
Page No 308: