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Test: Ampere Circuital Law(3 Dec) - JEE MCQ


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10 Questions MCQ Test Daily Test for JEE Preparation - Test: Ampere Circuital Law(3 Dec)

Test: Ampere Circuital Law(3 Dec) for JEE 2024 is part of Daily Test for JEE Preparation preparation. The Test: Ampere Circuital Law(3 Dec) questions and answers have been prepared according to the JEE exam syllabus.The Test: Ampere Circuital Law(3 Dec) MCQs are made for JEE 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Ampere Circuital Law(3 Dec) below.
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Test: Ampere Circuital Law(3 Dec) - Question 1
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Ampere's circuital law is given by

Detailed Solution for Test: Ampere Circuital Law(3 Dec) - Question 1

The line integral of the magnetic field of induction  around any closed path in free space is equal to absolute permeability of free space μ0 times the total current flowing through area bounded by the path.
Ampere's circuital law is given by: 

Test: Ampere Circuital Law(3 Dec) - Question 2
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A long straight wire in the horizontal plane carries a current of 75 A in north to south direction, magnitude and direction of field B at a point 3 m east of the wire is

Detailed Solution for Test: Ampere Circuital Law(3 Dec) - Question 2

From Ampere circuital law

The direction of field at the given point will be vertical up determined by the screw rule or right hand rule.

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Test: Ampere Circuital Law(3 Dec) - Question 3
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If a long straight wire carries a current of 40 A, then the magnitude ol the field B at a point 15 cm away from the wire is 

Detailed Solution for Test: Ampere Circuital Law(3 Dec) - Question 3

I = 40A
r = 15 cm = 15 x 10-2 m
∴  = 5.34 x 10-5 T

Test: Ampere Circuital Law(3 Dec) - Question 4
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The correct plot of the magnitude of magnetic field   vs distance r from centre of the wire is, if the radius of wire is R
Detailed Solution for Test: Ampere Circuital Law(3 Dec) - Question 4

The magnetic field from the centre of wire of radius R is given by
B = ((μ0I)/(2R2))r (r < R) ⇒ B ∝ r
and B = μ0I/2πr (r > R) ⇒ B ∝ 1/r
From this descriptions, we can say that the graph (b) is a correct representation.

Test: Ampere Circuital Law(3 Dec) - Question 5
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A solenoid of length 0.6 m has a radius of 2 cm and is made up of 600 turns. If it carries a current of 4A, then the magnitude of the magnetic field inside the solenoid is
Detailed Solution for Test: Ampere Circuital Law(3 Dec) - Question 5

Here, n = 600/0.6 = 1000 turns/m, I = 4A
l = 0.6m, r = 0.02 m ∵ 1/r = 30 i.e., l >>r
Hence, we can use long solenoid formuls, then
∴ B = μ0nI = 4π x 10-7 x 103 x 4 = 50.24 x 10-4 
= 5.024 x 10-3 T

Test: Ampere Circuital Law(3 Dec) - Question 6
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A solenoid of length 50 cm, having 100 turns carries a current of 2.5 A. The magnetic field at one end of the solenoid is
Detailed Solution for Test: Ampere Circuital Law(3 Dec) - Question 6

Here, I = 2.5 A , I = 50 cm = 0.50 m and n = 100/0.50 = 200 m-1
∴ 

Test: Ampere Circuital Law(3 Dec) - Question 7
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A 90 cm long solenoid has six layers of windings of 450 turns each. If the diameter of solenoid is 2.2 cm and current carried is 6A, then the magnitude of magnetic field inside the solenoid, near its centre is
Detailed Solution for Test: Ampere Circuital Law(3 Dec) - Question 7

For six layers of windings the total number of turns = 6 x 450 = 2700
Now number of turns per unit length 

Then the field in side the solenoid near the centre 
B = μ0nI = 4π x 10-7 x 3000 x 6  = 72π x 10-4 T = 72πG

Test: Ampere Circuital Law(3 Dec) - Question 8
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Which of the following statement is incorrect?
Detailed Solution for Test: Ampere Circuital Law(3 Dec) - Question 8

Option C is incorrect as magnetic field inside the core of the toroid varies greatly.

Test: Ampere Circuital Law(3 Dec) - Question 9
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A long straight wire of radius a carries a steady current I. The current is uniformly distributed over its cross-section. The ratio of the magnetic fields B and B', at radial distances and 2 a respectively, from the axis of the wire is:
Detailed Solution for Test: Ampere Circuital Law(3 Dec) - Question 9

Consider two amperian loops of radius a/ 2 and 2 a as shown in the diagram. Applying ampere's circuital law for these loops, we get

For the smaller loop,

Test: Ampere Circuital Law(3 Dec) - Question 10
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A current of 5 ampere is passed through a straight, wire of length ; then the magnetic induction at a point from the both end of the wire is
Detailed Solution for Test: Ampere Circuital Law(3 Dec) - Question 10


Now
Here OP
Now, and

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