Question

A long solenoid carrying a current produces a magnetic field $$B$$ along its axis. If the current is doubled and the number of turns per $$cm$$ is halved, the new value of the magnetic field is

A. $$2B$$
B. $$4B$$
C. $$\frac{B}{2}$$
D. $$B$$  
Answer :   $$B$$
Solution :
For a solenoid magnetic field is given by $$B = {\mu _0}ni$$
where, $$n =$$  number of turns per unit length and
$$i =$$  current through the coil
or so for two different cases $$B \propto ni$$
$$\therefore \frac{{{B_1}}}{{{B_2}}} = \frac{{{n_1}{i_1}}}{{{n_2}{i_2}}}$$
Here, $${n_1} = n,\,{n_2} = \frac{n}{2},$$
$${i_1} = i,{i_2} = 2i,{B_1} = B$$
Hence, $$\frac{B}{{{B_2}}} = \frac{n}{{\frac{n}{2}}} \times \frac{i}{{2i}} = 1\,\,{\text{or}}\,\,{B_2} = B$$

Releted MCQ Question on
Electrostatics and Magnetism >> Magnetic Effect of Current

Releted Question 1

A conducting circular loop of radius $$r$$ carries a constant current $$i.$$ It is placed in a uniform magnetic field $${{\vec B}_0}$$ such that $${{\vec B}_0}$$ is perpendicular to the plane of the loop. The magnetic force acting on the loop is

A. $$ir\,{B_0}$$
B. $$2\pi \,ir\,{B_0}$$
C. zero
D. $$\pi \,ir\,{B_0}$$
View Answer
Releted Question 2

A battery is connected between two points $$A$$ and $$B$$ on the circumference of a uniform conducting ring of radius $$r$$ and resistance $$R.$$ One of the arcs $$AB$$  of the ring subtends an angle $$\theta $$ at the centre. The value of the magnetic induction at the centre due to the current in the ring is

A. proportional to $$2\left( {{{180}^ \circ } - \theta } \right)$$
B. inversely proportional to $$r$$
C. zero, only if $$\theta = {180^ \circ }$$
D. zero for all values of $$\theta $$
View Answer
Releted Question 3

A proton, a deuteron and an $$\alpha - $$ particle having the same kinetic energy are moving in circular trajectories in a constant magnetic field. If $${r_p},{r_d},$$  and $${r_\alpha }$$ denote respectively the radii of the trajectories of these particles, then

A. $${r_\alpha } = {r_p} < {r_d}$$
B. $${r_\alpha } > {r_d} > {r_p}$$
C. $${r_\alpha } = {r_d} > {r_p}$$
D. $${r_p} = {r_d} = {r_\alpha }$$
View Answer
Releted Question 4

A circular loop of radius $$R,$$ carrying current $$I,$$ lies in $$x - y$$  plane with its centre at origin. The total magnetic flux through $$x - y$$  plane is

A. directly proportional to $$I$$
B. directly proportional to $$R$$
C. inversely proportional to $$R$$
D. zero
View Answer

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Magnetic Effect of Current

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