JEE Main 2018 (Online) 15th April Evening Slot | Electromagnetic Induction Question 96 | Physics

JEE Main 2018 (Online) 15th April Evening Slot

MCQ (Single Correct Answer)

-1

At the center of a fixed large circular coil of radius R, a much smaller circular coil of radius r is placed. The two coils are concentric and are in the same plane. The larger coil carries a current I. The smaller coil is set to rotate with a constant angular velocity $$\omega $$ about an axis along their common diameter. Calculate the emf induced in their smaller coil after a time t of its start of rotation.

$${{{\mu _o}{\rm I}} \over {2\,R}}$$ $$\omega $$ $$\pi $$ r² sin$$\omega $$ t

$${{{\mu _o}{\rm I}} \over {4\,R}}$$ $$\omega $$ $$\pi $$ r² sin$$\omega $$ t

$${{{\mu _o}{\rm I}} \over {4\,R}}$$ $$\omega $$ r² sin$$\omega $$ t

$${{{\mu _o}{\rm I}} \over {2\,R}}$$ $$\omega $$ r² sin$$\omega $$ t

JEE Main 2017 (Online) 9th April Morning Slot

MCQ (Single Correct Answer)

-1

A uniform magnetic field B of 0.3 T is along the positive Z-direction. A rectangular loop (abcd) of sides 10 cm × 5 cm carries a current I of 12 A. Out of the following different orientations which one corresponds to stable equilibrium ?

JEE Main 2017 (Online) 9th April Morning Slot Physics - Electromagnetic Induction Question 96 English Option 1

JEE Main 2017 (Online) 9th April Morning Slot Physics - Electromagnetic Induction Question 96 English Option 2

JEE Main 2017 (Online) 9th April Morning Slot Physics - Electromagnetic Induction Question 96 English Option 3

JEE Main 2017 (Online) 9th April Morning Slot Physics - Electromagnetic Induction Question 96 English Option 4

JEE Main 2017 (Online) 8th April Morning Slot

MCQ (Single Correct Answer)

-1

A small circular loop of wire of radius a is located at the centre of a much larger circular wire loop of radius b. The two loops are in the same plane. The outer loop of radius b carries an alternating current I = I_o cos ($$\omega $$t). The emf induced in the smaller inner loop is nearly :

$${{\pi {\mu _o}{I_o}} \over 2}.{{{a^2}} \over b}\,\omega \sin \left( {\omega t} \right)$$

$${{\pi {\mu _o}{I_o}} \over 2}.{{{a^2}} \over b}\,\omega \cos \left( {\omega t} \right)$$

$$\pi {\mu _o}{I_o}\,{{{a^2}} \over b}\omega \sin \left( {\omega t} \right)$$

$${{\pi {\mu _o}{I_o}\,{b^2}} \over a}\omega \cos \left( {\omega t} \right)$$

JEE Main 2017 (Offline)

MCQ (Single Correct Answer)

-1

In a coil of resistance 100 $$\Omega $$, a current is induced by changing the magnetic flux through it as shown in the figure. The magnitude of change in flux through the coil is:

JEE Main 2017 (Offline) Physics - Electromagnetic Induction Question 101 English

JEE Main 2017 (Offline) Physics - Electromagnetic Induction Question 101 English

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