Find resultant magnetic field at C in Fi...

Find resultant magnetic field at C in Fig

Text Solution

Verified by Experts

It is clear that `B` and `C` due all the wires is directed `ox`.Also `B` at `C` due `PQ` and `SR` is same.Also due to `QR` and `PS` is same
`B_(res)=2(B_(PO)+B_(SP))`
`B_(PQ)=(mu_(0)l)/(4pia/2)(sin 60^(@)+sin 60^(@))`.
`B_(sp)=(mu_(0)l)/(4pi(sqrt3a)/2)(sin 30^(@)+sin 30^(@)) rArr B_(res)=2((sqrt3mu_(0)i)/(2pia)+(sqrtmu_(0)i)/(2piasqrt3))=(4mu_(0)i)/(sqrt3pia)`

Topper's Solved these Questions

ELECTRODYNAMICS
RESONANCE ENGLISH|Exercise PROBLEM|12 Videos
ELECTRODYNAMICS
RESONANCE ENGLISH|Exercise Exercise-1 PART-1|83 Videos
ELECTRO MAGNETIC WAVES
RESONANCE ENGLISH|Exercise Exercise 3|27 Videos
ELECTROMAGNETIC INDUCTION
RESONANCE ENGLISH|Exercise A.l.P|19 Videos

Similar Questions

Explore conceptually related problems

Find magnetic field at O.

A long straight wire is bent as shown below. Find the resultant magnetic field B at the centre C of the circular path of radius 2 cm if a current I of 5A is passed through the wire.

Two similar coils are kept mutually perpendicular such that their centres coincide. At the centre, find the ratio of the magnetic field due to one coil and the resultant magnetic field by both coils, if the same current is flown

At a given palce on the earth's surface, the horizontal component of earth's magnetic field is 3 xx 10^(-5)T and resultant magnetic field is 6 xx 10^(-5)T . The angle of dip at this place is

The resulting magnetic field at the point O due to the current carrying wire shown in the figure:

Find the magnetic field at the origin in the fig. Shown in fig.

A square conductind loop, 20.0 cm on a side placed in the same magnetic field as shown in Fig. 3.195, center of the magnetic field region, where dB//dt = 0.035 T s^(-1) . he direction of induced electric field at points a, b and c:

Find the magnetic field B at the point P in figure

Find the magnetic field at point O shown in the figure

RESONANCE ENGLISH-ELECTRODYNAMICS-Advanced level problems

Find resultant magnetic field at C in Fig
Text Solution
|
Calculate the magnetic moment (in Am^(2) ) of a thin wire with a curre...
Text Solution
|
A small charged ball having mass m and charge q is suspended from a ri...
Text Solution
|
The figure shows a conductor of weight 1.0 N& length L=0.5 m placed on...
Text Solution
|
Four long wires each carrying current I as shown in the are placed at ...
Text Solution
|
A solenoid of length 0.4m and having 500 turns of wire carries a curre...
Text Solution
|
A uniformly charged ring of radius 0.1 m rotates at a frequency of 10^...
Text Solution
|
The current density vecj inside a long, solid, cylindrica wire of radi...
Text Solution
|
A neutral particle is at rest in a uniform magnetic field B. At time t...
Text Solution
|
A non-uniform magnetic field vecB=B(0)(1+y/d)(-hatk) is present in reg...
Text Solution
|
A neutral atom of atomic mass number 100 which is stationary at the or...
Text Solution
|
In the figure shown a positively charged particle of charge q and mass...
Text Solution
|
A thin beam of charged particles in incident normally on the boundry o...
Text Solution
|
An electron moving with a velocity vecV(1)=2hatim/s at a point in a ma...
Text Solution
|
An electron is shot into one end of a solenoid.As it enters the unifor...
Text Solution
|
At time t(1), an electron is sent along the positive direction of x-ax...
Text Solution
|
In the figure shown an infinitely long wire carries a current I(1) and...
Text Solution
|
A loop PQR formed by three identical uniform conducting rods each of l...
Text Solution
|
In order to impatt an angular velocity to an earth satellite the geoma...
Text Solution
|
Given figure shows a coil bent with all edges of length 1 m and carryi...
Text Solution
|
Two particles, each having a mass m are placed at a separation d in a ...
Text Solution
|