Dual Nature Of Radiation And Matter MCQs With Answers – Part 4 (Class 12 Physics)
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Dual Nature of Radiation and Matter MCQs with Answers – Part 4 (Class 12 Physics)

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301. In a crystal diffraction experiment, the first-order maximum for electrons occurs when \(2d\sin\theta=\lambda\). If the accelerating voltage is increased, the value of \(\lambda\) decreases, so the new Bragg angle generally
ⓐ. decreases for same planes and order
ⓑ. increases to \(90^\circ\) always
ⓒ. remains unchanged for all voltages
ⓓ. becomes unrelated to crystal spacing
302. A crystal has plane spacing \(d=2.0\,\text{\AA}\). An electron beam of wavelength \(1.0\,\text{\AA}\) gives first-order constructive scattering. The Bragg angle is
ⓐ. \(30^\circ\)
ⓑ. \(45^\circ\)
ⓒ. \(15^\circ\)
ⓓ. \(60^\circ\)
303. A summary of wave-particle evidence is shown below.
ObservationSupported idea
P. Photoelectric emission with threshold frequencyParticle nature of radiation
Q. Electron diffraction by a crystalWave nature of matter
R. Interference of lightWave nature of radiation
S. Electron current in a wirePhoton momentum directly
The mismatched row is
ⓐ. P
ⓑ. S
ⓒ. Q
ⓓ. R
304. A final comparison says, “Photoelectric effect and electron diffraction prove the same side of dual nature.” The better comparison is that
ⓐ. both prove only the wave nature of radiation
ⓑ. photoelectric effect supports particle nature of radiation, while electron diffraction supports wave nature of matter
ⓒ. both prove that electrons have no particle behaviour
ⓓ. photoelectric effect supports wave nature of matter, while electron diffraction supports particle nature of radiation
305. A moving electron and a photon are both assigned wavelength \( \lambda \). Their common relation is that the magnitude of momentum is
ⓐ. \(p=h\lambda\)
ⓑ. \(p=\lambda h^2\)
ⓒ. \(p=\frac{\lambda}{h}\)
ⓓ. \(p=\frac{h}{\lambda}\)
306. A claim says, “Since electrons show diffraction, they should always be treated only as waves.” The most accurate response is that
ⓐ. electrons stop having charge in all wave experiments
ⓑ. electrons become photons whenever their wavelength is measured
ⓒ. diffraction proves that momentum is zero
ⓓ. diffraction shows waves; detection shows particles
307. The condition \(n\lambda=2d\sin\theta\) in electron diffraction predicts strong peaks only at certain angles because
ⓐ. electrons lose their charge at every other angle
ⓑ. the crystal spacing becomes zero except at one detector position
ⓒ. path difference is an integral number of wavelengths
ⓓ. photon energy is converted directly into electron rest mass
308. In dual-nature physics, the most complete statement among the following is
ⓐ. radiation has only particle nature and matter has only wave nature
ⓑ. all macroscopic objects show easily visible diffraction in daily life
ⓒ. description depends on the observed phenomenon
ⓓ. photoelectric current is unrelated to photon energy or intensity
309. Heisenberg’s uncertainty idea is connected with wave-particle duality because a microscopic particle described by a wave packet cannot generally have
ⓐ. both charge and mass measured in any experiment
ⓑ. both wavelength and frequency related to each other
ⓒ. both kinetic energy and potential difference connected by a formula
ⓓ. unlimited simultaneous precision in position and momentum
310. A claim says, “The uncertainty principle is important only because instruments are poor.” The better statement is that the uncertainty is
ⓐ. removable by using brighter light of any frequency
ⓑ. caused only by air resistance on electrons
ⓒ. quantum limit from wave-particle duality
ⓓ. absent for all microscopic particles
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