Video Lecture

Theory For Making Notes

Practice Questions (Level-1)

Lorem ipsum dolor sit amet, consectetur adipiscing elit. Ut elit tellus, luctus nec ullamcorper mattis, pulvinar dapibus leo.

Practice Questions (Level-2)

Q.1

Figure shows two coils made from the same wire and of radii a and b. They are placed in a magnetic field perpendicular to their plane which varies as B = Bo sin wt. If the resistance of the two coils be R, then what is current in the loop?

(a) \frac{{\omega {{B}_{o}}\cos \omega t}}{R}         

(b) \frac{{\omega \pi \left( {{{a}^{2}}-{{b}^{2}}} \right)}}{R}{{B}_{o}}\cos \omega t

(c) \frac{{\pi \left( {{{a}^{2}}-{{b}^{2}}} \right)}}{R}{{B}_{o}}\cos \omega t  

(d) \frac{{\omega \pi \left( {{{a}^{2}}+{{b}^{2}}} \right)}}{R}{{B}_{o}}\cos \omega t

Ans.  (b) 

Q.2

An equilateral triangular loop having a resistance R and length of each side l is placed in a magnetic field which is varying at \frac{{dB}}{{dt}}=1\,T/S. The induced current in the loop will be 

(a) \frac{{\sqrt{3}}}{4}\frac{{{{l}^{2}}}}{R}                

(b) \frac{4}{{\sqrt{3}}}\frac{{{{l}^{2}}}}{R}                

(c) \frac{{\sqrt{3}}}{4}\frac{R}{{{{l}^{2}}}}                 

(d) \frac{4}{{\sqrt{3}}}\frac{R}{{{{l}^{2}}}}

Ans.  (a)

Q.3

A conducting circular loop is placed in a uniform magnetic field of induction B tesla with its plane normal to the field. Now the radius of the loop starts shrinking at the rate (dr/dt). Then the induced e.m.f. at the instant when the radius is r will be

(a) \pi rB\left( {\frac{{dr}}{{dt}}} \right)    

(b) 2\pi rB\left( {\frac{{dr}}{{dt}}} \right) 

(c) \pi {{r}^{2}}\left( {\frac{{dB}}{{dt}}} \right)                                       

(d) B\frac{{\pi {{r}^{2}}}}{2}\frac{{dr}}{{dt}}

Ans.  (b)

Q.4

A uniform but time varying magnetic field exists in cylindrical region and directed into the paper. If field decreases with time and a positive charge placed at any point inside the region, then it moves

(a) along 1        (b) along 2      (c) along 3          (d) along 4

Ans.  (c)

Q.5

A uniform but time varying magnetic field is present in a circular region of radius R. The magnetic field is perpendicular and into the plane of the paper and the magnitude of the field is increasing at a constant rate a. There is a straight conducing rod of length 2R placed as shown in the figure. The magnitude of induced emf across the rod is  

(a) pR2a                                              

(b) \frac{{\pi {{R}^{2}}\alpha }}{2}              

(c) \frac{{{{R}^{2}}\alpha }}{{\sqrt{2}}}      

(d) \frac{{\pi {{R}^{2}}\alpha }}{4}

Ans. (d)           

Q.6

A uniform magnetic field is confined in a cylindrical region of radius R. If the magnetic field is increased at a constant rate, then the variation of electric field (E) with the distance (r) from the axis of cylindrical region can best represented by

Ans.  (d)