Question:
A square loop of wire, side length $ 10\,cm $ is placed at angle of $ 45^{\circ} $ with a magnetic field that changes uniformly from $ 0.1 \,T $ to zero in $ 0.7\, s $ . The induced current in the loopa (its resistance is $ 1\,\Omega $ ) is
A square loop of wire, side length $ 10\,cm $ is placed at angle of $ 45^{\circ} $ with a magnetic field that changes uniformly from $ 0.1 \,T $ to zero in $ 0.7\, s $ . The induced current in the loopa (its resistance is $ 1\,\Omega $ ) is
Updated On: Jun 14, 2022
- $ 1.0 \,mA $
- $ 2.5 \,mA $
- $ 3.5 \,mA $
- $ 4.0 \,mA $
Hide Solution
Verified By Collegedunia
The Correct Option is A
Solution and Explanation
Initial magnetic flux linked with the loop
$\phi_{1}=B_{1}A_{1}\,cos\, \phi $
$=0.1\times\left(10\times10^{-2}\right)^{2} cos\,45^{\circ}$
$=\frac{0.1\times\left(10^{-2}\times1\right)}{\sqrt{2}}=\frac{10^{-3}}{\sqrt{2}}$
Final magnetic flux linked with the loop $\phi_{2}=0$
Now, induced emf in the loop $e=\frac{-d\phi}{dt}$
$=\frac{-\left[\frac{10^{-3}}{\sqrt{2}}\right]}{0.7}=10^{-3}V$
$\therefore$ Induced current $=\frac{e}{R}=\frac{10^{-3}}{1}=1\,mA$
$\phi_{1}=B_{1}A_{1}\,cos\, \phi $
$=0.1\times\left(10\times10^{-2}\right)^{2} cos\,45^{\circ}$
$=\frac{0.1\times\left(10^{-2}\times1\right)}{\sqrt{2}}=\frac{10^{-3}}{\sqrt{2}}$
Final magnetic flux linked with the loop $\phi_{2}=0$
Now, induced emf in the loop $e=\frac{-d\phi}{dt}$
$=\frac{-\left[\frac{10^{-3}}{\sqrt{2}}\right]}{0.7}=10^{-3}V$
$\therefore$ Induced current $=\frac{e}{R}=\frac{10^{-3}}{1}=1\,mA$
Was this answer helpful?
0
0
Top Questions on Electromagnetic induction
- In Fleming’s left hand rule, the forefinger gives:
- CBSE Class X - 2024
- Electronics and hardware
- Electromagnetic induction
- A rectangular loop of length 2.5 m and width 2 m is placed at 60° to a magnetic field of 4 T. The loop is removed from the field in 10 sec. The average emf induced in the loop during this time is:
- JEE Main - 2024
- Physics
- Electromagnetic induction
- Let us consider two solenoids A and B, made from same magnetic material of relative permeability \(µ_r\) and equal area of cross-section. Length of A is twice that of B and the number of turns per unit length in A is half that of B. The ratio of self inductances of the two solenoids, LA : LB is
- NEET (UG) - 2024
- Physics
- Electromagnetic induction
- A step up transformer is connected to an ac mains supply of 220 V to operate at 11000 V, 88 watt. The current in the secondary circuit, ignoring the power loss in the transformer, is
- NEET (UG) - 2024
- Physics
- Electromagnetic induction
- A coil of 200 turns and area $0.20 \, \text{m}^2$ is rotated at half a revolution per second and is placed in a uniform magnetic field of $0.01 \, \text{T}$ perpendicular to the axis of rotation of the coil. The maximum voltage generated in the coil is \[\frac{2\pi}{\beta} \, \text{volt}.\]The value of $\beta$ is:
- JEE Main - 2024
- Physics
- Electromagnetic induction
View More Questions
Questions Asked in AMUEEE exam
- The ratio of the half-life time $ (t_{1/2}) $ , to the three quarter life-time, $ (t_{3/4}) $ , for a reaction that is second order
- AMUEEE - 2018
- Order of Reaction
- $ 0.002\, M $ solution of a weak acid has an equivalent conductance $ (\wedge) 60\, ohm^{-1}\, cm^{2}\, eq^{-1} $ . What will be the $ pH $ ? (Given : $ \wedge = 400 \, ohm^{-1} \, cm^{2} \, eq^{-1} $ ]
- AMUEEE - 2018
- Electrochemistry
- The electrode potential, $ E^{\circ} $ , for the reduction of $ MnO^{-}_{4} $ to $ Mn^{2+} $ in acidic medium is $ +1.51\, V $ . Which of the following metal(s) will be oxidised? The reduction reactions and standard electrode potentials for $ Zn^{2+}, Ag^{+} $ , and $ Au^{+} $ are given as $ Zn^{2+} (aq) +2e \to Zn(s), E^{\circ} = -0.762\, V $ $ Ag+ (aq) +e {\rightleftharpoons} Ag (s), E^{\circ}=+0.80 \,V $ $ Au^{+} (aq) +e {\rightleftharpoons} Au(s), E^{\circ}+1.69\,V $
- AMUEEE - 2018
- Electrochemistry
- Three particles, two with masses $ m $ and one with mass $ M $ , might be arranged in any of the four configurations shown below. Rank the configurations according to the magnitude of the gravitational force on $ M $ , least to greatest
- AMUEEE - 2018
- Gravitation
- The $ EAN $ value $ y \left[Ti\left(\sigma-C_{6}H_{5}\right)_{2}\left(\pi-C_{5}H_{5}\right)_{2}\right]^{0} $ is
- AMUEEE - 2018
- coordination compounds
View More Questions
Concepts Used:
Electromagnetic Induction
Electromagnetic Induction is a current produced by the voltage production due to a changing magnetic field. This happens in one of the two conditions:-
- When we place the conductor in a changing magnetic field.
- When the conductor constantly moves in a stationary field.
Formula:
The electromagnetic induction is mathematically represented as:-
e=N × d∅.dt
Where
- e = induced voltage
- N = number of turns in the coil
- Φ = Magnetic flux (This is the amount of magnetic field present on the surface)
- t = time
Applications of Electromagnetic Induction
- Electromagnetic induction in AC generator
- Electrical Transformers
- Magnetic Flow Meter