Electromagnetic Waves MCQs With Answers – Part 2 (Class 12 Physics)
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Electromagnetic Waves MCQs with Answers – Part 2 (Class 12 Physics)

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101. A compact passage says:
Four field laws are used together. One tells how charges relate to electric flux. One states that net magnetic flux through a closed surface is zero. One connects changing magnetic field to electric field. One connects conduction current and changing electric flux to magnetic field.
The last sentence of the passage describes
ⓐ. Ampere-Maxwell law
ⓑ. Faraday's law
ⓒ. Gauss's law for electricity
ⓓ. Gauss's law for magnetism
102. A row in a student's notes says: "Faraday's law: changing electric flux produces magnetic field." The row needs correction because Faraday's law actually says that
ⓐ. electric flux through a closed surface is always zero
ⓑ. conduction current is equal to wavelength
ⓒ. changing magnetic field produces electric field
ⓓ. displacement current is caused by constant electric flux
103. A corrected table of the four standard textbook laws should place "enclosed charge" mainly under
ⓐ. Gauss's law for magnetism
ⓑ. Gauss's law for electricity
ⓒ. Faraday's law
ⓓ. Ampere-Maxwell circulation law
104. If a region has no conduction current but its electric flux changes with time, the Maxwell-equation idea that can still connect it to magnetic field is
ⓐ. Gauss's law for magnetism
ⓑ. Faraday's law only
ⓒ. Ampere-Maxwell law
ⓓ. the relation \(c=\nu\lambda\)
105. A set of four statements is written about the Maxwell framework. Statement I: Charges are related to electric flux. Statement II: Isolated magnetic poles are represented by non-zero net magnetic flux through a closed surface. Statement III: A changing magnetic field can produce an electric field. Statement IV: A changing electric field can produce a magnetic field.
ⓐ. I, III and IV only
ⓑ. I and II only
ⓒ. II, III and IV only
ⓓ. I, II, III and IV
106. A stationary electric charge mainly produces
ⓐ. a magnetic field only
ⓑ. an electric field only
ⓒ. no field at all
ⓓ. an electromagnetic wave continuously
107. A charge moving with constant velocity is compared with a charge that is accelerating. The accelerating charge is special because it can
ⓐ. lose its electric field completely
ⓑ. produce only a gravitational field
ⓒ. stop producing magnetic effects
ⓓ. radiate electromagnetic waves
108. Consider the following charge situations. Statement I: A stationary charge produces an electric field. Statement II: A steady moving charge produces electric and magnetic fields. Statement III: An accelerated charge can produce electromagnetic waves.
ⓐ. I, II and III
ⓑ. I and II only
ⓒ. II and III only
ⓓ. I and III only
109. Match the charge condition with the most suitable field description.
Column IColumn II
P. Charge at rest1. Can radiate electromagnetic waves
Q. Charge moving steadily2. Produces electric field without magnetic field due to motion
R. Accelerated charge3. Associated with electric and magnetic fields
S. Oscillating charge4. Practical time-varying source of radiation
ⓐ. P-2, Q-3, R-1, S-4
ⓑ. P-3, Q-2, R-1, S-4
ⓒ. P-2, Q-1, R-3, S-4
ⓓ. P-4, Q-3, R-2, S-1
110. A radio transmitting antenna works because charges in it are made to
ⓐ. remain permanently at rest
ⓑ. oscillate and therefore accelerate
ⓒ. move with constant speed in one direction only
ⓓ. disappear into the surrounding air
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