A uniform magnetic field B = 0.5 T exist...

A uniform magnetic field `B = 0.5 T` exists in a circular region of radius `R = 5m`. A loop of radius `R = 5 m ` encloses the magnetic field at `t = 0` and then pulled at uniform speed `v = 2m s^(-1)` In the plane of the paper. Find the induced emf `("in" V)` in the loop at time `t = 3 s`.

Text Solution

Verified by Experts

The correct Answer is:

`O_(1)M = (vt - R) + ((2R - vt)/(2)) = (vt)/(2)`

`l = 2sqrt(r^(2) - (O_(1)M)^(2)) = 2sqrt(R^(2) - ((vt)/(2))^(2)) = sqrt(4R^(2) - v^(2)t^(2))`
so `E = Bvl = Bxsqrt(4R^(2) - v^(2)t^(2))`
given `R = 5m, v = 2m//s, t = 3s`
`E = 0.5 xx2sqrt(4 xx 25 - 4 xx 9) = 8V`

Topper's Solved these Questions

ELECTROMAGNETIC INDUCTION
CENGAGE PHYSICS ENGLISH|Exercise Archives Fill In The Blanks|3 Videos
ELECTROMAGNETIC INDUCTION
CENGAGE PHYSICS ENGLISH|Exercise Archives Single Correct|11 Videos
ELECTROMAGNETIC INDUCTION
CENGAGE PHYSICS ENGLISH|Exercise Exercises Linked Comprehension|36 Videos
ELECTRICAL MEASURING INSTRUMENTS
CENGAGE PHYSICS ENGLISH|Exercise M.C.Q|2 Videos
ELECTRON,PHONTS,PHOTOELECTRIC EFFECT & X-RAYS
CENGAGE PHYSICS ENGLISH|Exercise dpp 3.3|15 Videos

Similar Questions

Explore conceptually related problems

A uniform magnetic field vecB=0.25hatkT exists in a circular region of radius R=5m . A loop of radius R=5m lying in x-y plane encloses the magnetic field at t=0 and then pulled at uniform velocity vecv=4hatim//s . Find the emf induced (in volts) is the loop at t=2 sec

A current carrying loop of radius R and mass 'm' is placed inside a uniform magnetic field an shown

A uniform but time varying magnetic field B(t) exist in a circular region of radius a and is directed into the plane of the paper as shown. The magnitude of the induced electric field at point P at a distance r form the centre of the circular region.

A wire in the form of a circular loop of radius 10 cm lies in a plane normal to a magnetic field of 100 T . If this wire is pulled to take a square shape in the same plane in 0.1 s , find the average induced emf in the loop.

A uniform but time-varying magnetic field B(t) exists in a circular region of radius a and is directed into the plane of the paper, as shown. The magnitude of the induced electric field at point P at a distance r from the centre of the circular region

A uniform but time varying magnetic field B=(2t^3+24t)T is present in a cylindrical region of radius R =2.5 cm as shown in figure. The force on an electron at P at t=2.0 s is

A non uniform magnetic field B=B_(0)that"i" in a region exists. A circular conducting loop of radius r and resistance R is placed with its plane in yz-plane. Determine the current through the loop and sense of the current.

A circular loop of radius R is kept in a uniform magnetic field pointing perpendicular into the plane of paper. When a current l flows in the loop, the tension produced in the loop is

An electron is moving on a circular path of radius r with speed v in a transverse magnetic field B. e/m for it will be

A semi-circular loop of radius R is placed in a uniform magnetic field as shown. It is pulled with a constant velocity. The induced emf in the loop is

CENGAGE PHYSICS ENGLISH-ELECTROMAGNETIC INDUCTION-Exercises Integer

In Fig. ABCD is a fixed smooth conducting frame in horizontal plane. T...
Text Solution
|
Figure shows a conducting rod of length l = 10 cm, resistance R and ma...
Text Solution
|
The magnetic field of a cyclindrical magnet that has a pole face radiu...
Text Solution
|
a long coaxial cable consits of two thin-walled conducting cyclider ca...
Text Solution
|
A circular coil of wire consists of exactly 100 turns with a total res...
Text Solution
|
Some magnetic flux is changed from a coil of resistance 10Omega. As a ...
Text Solution
|
In Fig. there are two sliders and they can slide on two frictionless ...
Text Solution
|
A square wire loop of 10.0 cm side lies at right angles to a uniform m...
Text Solution
|
A uniform magnetic field B = 0.5 T exists in a circular region of radi...
Text Solution
|