A copper wire bent in the shape of a sem...

A copper wire bent in the shape of a semicircle of radius r translates in its plane with a constant velocity v. A uniform magnetic field B exists in the direction perpendicular to the plane of the wire. Find the emf induced between the ends of the wire if (a) the velocity is perpendicular ot the diameter joining free ends, (b) the velocity is parallel to this diameter.

Text Solution

Verified by Experts

(a) Components of length moving perpendicular to V is 2R`
`:. E=Bv 2R`
`(b) Component of length perpendicular to velocity=0`
`E=0.`

Topper's Solved these Questions

ELECTROMAGNETIC INDUCTION
HC VERMA|Exercise EXERCISE|9 Videos
ELECTROMAGNETIC INDUCTION
HC VERMA|Exercise Objective 2|10 Videos
ELECTRIC FIELD AND POTENTIAL
HC VERMA|Exercise Exercises|75 Videos
ELECTROMAGNETIC WAVES
HC VERMA|Exercise Exercises|9 Videos

Similar Questions

Explore conceptually related problems

A 1m long metal wire moving perpendicular with speed 5m//s is a magnetic field of 0.1T. Then the induced emf between two ends of wire is……V

A wheel of radius 2m having 8 conducting concentric spokes is rotating about its geometrical axis with an angular velocity of 10 rad/s in a uniform magnetic field of 0.2T perpendicular to its plane. The value of induced emf between the rim of the wheel and centre is ......... V

A wheel having n conducting concentric spokes is rotating about it geometrical axis with an angular velocity omega , in a uniform magnetic field B perpendicular to its plane prove that the induced emf generated between the rim of the wheel and the center is (omegaBR^2)/2 , where R is the radius of the wheel. It is given that the rim of the wheel is conducting.

A wheel of radius r having conducting rim and n no. of conducting spokes, rotates in a plane perpendicular to uniform magnetic field B with constant angular speed omega . Prove that emf induced between centre and rim of a wheel is 1/2BomegaR^2

A conducting circular loop is expanding in a magnetic field of 2T uniformly so that rate of increase of its radius R is 1 cm/s. Find the induced emf in the loop when its radius is 20 cm. The field is perpendicular to the plane of the loop.

A wire having resistance 20 Omega is bent in the form of a circle as shown in the following figure: What will be the resistance between two end points A and B located on the diameter?

As shown in the figure, a conducting rod of length I, mass m and resistance R falls through a magnetic field vecB in a plane perpendicular to plane of figure. Find terminal velocity of rod.

HC VERMA-ELECTROMAGNETIC INDUCTION-Exercises

The two rails of a railway track, insulated form each other and from ...
Text Solution
|
A right angled triangle abc, made from a metallic wire, moves at a uni...
Text Solution
|
A copper wire bent in the shape of a semicircle of radius r translates...
Text Solution
|
A wire of length 10cm translates in a direction making an angle of 60^...
Text Solution
|
A circular copper ring of raidus r translates in its plane with a cons...
Text Solution
|
Shows a wire sliding on two parallel, conducting rails placed at a se...
Text Solution
|
shows a long U shaped wire of widt l placed in a perpendicular magnet...
Text Solution
|
Consider the situation of the previous problem. (a) Calculate the forc...
Text Solution
|
Consider the situation shown in . The wire PQ has mass m, resistance r...
Text Solution
|
A rectanguar frame of wire abcd has dimensions 32cm X 8.0 cm and a tot...
Text Solution
|
Shows a metallic wire of resistance 0.20 Omega sliding on a horizontal...
Text Solution
|
A wire ab of length l, mass m and resistance R slided on a smooth, thi...
Text Solution
|
Consider the situation shown in . The wires P1Q1 and P2 Q2 are made ...
Text Solution
|
Suppose the 19 Omega resistor of the previous problem is disconnected....
Text Solution
|
Consider the situation shown in . The wire PQ has a negligible resist...
Text Solution
|
The current generator I g, shown in . Sends a constant current I throu...
Text Solution
|
The current generator ig, shown in , sends a constant current I throu...
Text Solution
|
The system containing the rails and the wire of the previous problem i...
Text Solution
|
The rectangualr wire- frame, shown in has a width d, mass m, resist...
Text Solution
|
Shows a smooth pair of thick metallic rails connected across a battery...
Text Solution
|