Electromagnetic Waves MCQs With Answers – Part 4 (Class 12 Physics)
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Electromagnetic Waves MCQs with Answers – Part 4 (Class 12 Physics)

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301. Use the graph description below. The horizontal axis is electromagnetic spectrum position from radio waves at the left to gamma rays at the right. A curve labelled "typical photon energy" rises steadily from left to right. The best interpretation is that
ⓐ. photon energy decreases as frequency increases across the spectrum
ⓑ. photon energy increases as frequency increases across the spectrum
ⓒ. all spectrum regions have the same photon energy because speed is common
ⓓ. radio waves have the greatest photon energy because their wavelength is longest
302. Read the situation below and answer the question.
A scientist chooses radiation for four tasks: long-distance broadcasting, thermal imaging of a warm surface, viewing a bone fracture, and sterilising packaged medical tools.
The most suitable order of radiation types for these tasks is
ⓐ. gamma rays, radio waves, infrared, visible light
ⓑ. infrared, microwaves, radio waves, ultraviolet
ⓒ. X-rays, visible light, microwaves, radio waves
ⓓ. radio waves, infrared, X-rays, gamma rays
303. A table compares four electromagnetic regions for source, effect, and use.
RegionTypical source or interactionCommon use or effect
P. Radio wavesOscillating charges in antennasBroadcasting and communication
Q. InfraredEmission from warm bodiesThermal imaging
R. X-raysFast electrons suddenly stoppedMedical imaging
S. Gamma raysNuclear transitionsSterilisation or cancer therapy
The best judgement about the table is that
ⓐ. all four rows are physically suitable
ⓑ. only P and Q are suitable
ⓒ. only R and S are suitable
ⓓ. all rows are wrong because uses cannot identify spectrum regions
304. The atmosphere does not transmit all electromagnetic waves equally. This means that
ⓐ. every wavelength is absorbed by the atmosphere in exactly the same way
ⓑ. only visible light can pass through the atmosphere
ⓒ. atmospheric transparency depends on radiation wavelength or frequency
ⓓ. electromagnetic waves become longitudinal inside air
305. Visible light reaches Earth's surface in large amount because the atmosphere has
ⓐ. complete opacity to all wavelengths near visible light
ⓑ. a visible window of relatively good transparency
ⓒ. no interaction with any electromagnetic wave
ⓓ. a rule that only gamma rays can pass through it
306. A radio signal from a distant transmitter is received clearly over a large region. One suitable atmospheric reason is that
ⓐ. some radio bands propagate through atmospheric windows
ⓑ. radio waves are not electromagnetic radiation
ⓒ. radio waves always have higher frequency than gamma rays
ⓓ. all radio waves are completely absorbed by the ozone layer
307. Read the situation below and answer the question.
A communication engineer chooses microwave frequencies for a satellite link. The signal must pass through a large part of the atmosphere before reaching the receiver.
The choice is reasonable mainly because
ⓐ. selected microwave bands can carry signals through air
ⓑ. microwaves are sound waves that need air for travel
ⓒ. microwaves have lower frequency than all radio waves
ⓓ. microwaves are completely absorbed by every gas in air
308. Ozone in the upper atmosphere is important because it absorbs much of the harmful part of
ⓐ. radio waves
ⓑ. microwaves
ⓒ. infrared radiation from remote controls only
ⓓ. ultraviolet radiation
309. A claim says, "If ozone absorbs ultraviolet radiation, then no ultraviolet radiation can ever reach Earth's surface." The claim is
ⓐ. valid because ozone blocks all ultraviolet frequencies perfectly
ⓑ. valid because ultraviolet is not electromagnetic radiation
ⓒ. invalid because ozone absorbs only radio-frequency waves
ⓓ. invalid because ozone absorbs harmful UV but not all UV
310. Some gases in the atmosphere absorb infrared radiation emitted by Earth's surface. This absorption is connected with
ⓐ. production of X-rays by metal targets
ⓑ. radio broadcasting by antennas
ⓒ. greenhouse-related heating of the lower atmosphere
ⓓ. direct conversion of infrared radiation into nuclear gamma rays
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