A conductor of linear mass density 0.2 g m1 suspended by two flexible wire as shown in figure. Suppose the tension in the supporting wires is zero when it is kept inside the magnetic field of - Physics

Question

A conductor of linear mass density 0.2 g m1 suspended by two flexible wire as shown in figure. Suppose the tension in the supporting wires is zero when it is kept inside the magnetic field of I T whose direction is into the page. Compute the current inside the conductor and also the direction for the current. Assume g = 10 m s^-2.

Numerical

Solution

Downward force, F = mg

Linear mass density, `m/l` = 0.2 gm^-1

`m/l` = 0.2 x 10^-3 kg m^-1

m = (0.2 x 10^-3 x l) kg m^-1

F = (0.2 x 10^-3 x l x 10) N

Upward magnetic force acting on the wire

F = BIl

0.2 x 10^-3 x l x 10 = 1 x I x l

I = 2 x 10^-3

I = 2 m A

shaalaa.com

Magnetic Effects of Current

Is there an error in this question or solution?

Q IV. 2.Q IV. 1.Q IV. 3.

Chapter 3: Magnetism and magnetic effects of electric current - Evaluation [Page 192]

APPEARS IN

Samacheer Kalvi Physics - Volume 1 and 2 [English] Class 12 TN Board

Chapter 3 Magnetism and magnetic effects of electric current
Evaluation | Q IV. 2. | Page 192

A conductor of linear mass density 0.2 g m1 suspended by two flexible wire as shown in figure. Suppose the tension in the supporting wires is zero when it is kept inside the magnetic field of - Physics

Advertisements

Advertisements

Question

Solution

APPEARS IN

RELATED QUESTIONS

Select a course

A conductor of linear mass density 0.2 g m1 suspended by two flexible wire as shown in figure. Suppose the tension in the supporting wires is zero when it is kept inside the magnetic field of - Physics

Advertisements

Advertisements

Question

SolutionShow Solution

APPEARS IN

RELATED QUESTIONS

Select a course

Solution