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Test: Dual Nature of Radiation of Matter- 1 (March 7) - NEET MCQ


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10 Questions MCQ Test - Test: Dual Nature of Radiation of Matter- 1 (March 7)

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Test: Dual Nature of Radiation of Matter- 1 (March 7) - Question 1

Work function of a metal is the

Detailed Solution for Test: Dual Nature of Radiation of Matter- 1 (March 7) - Question 1

In the photoelectric effect, the work function is the minimum amount of energy (per photon) needed to eject an electron from the surface of a metal.Electrons ejected from a sodium metal surface were measured as an electric current.The minimum energy required to eject an electron from the surface is called the photoelectric work function.
This energy (work function) is a measure of how firmly a particular metal holds its electrons. The work function is important in applications involving electron emission from metals, as in photoelectric devices and cathode-ray tubes.

Test: Dual Nature of Radiation of Matter- 1 (March 7) - Question 2

Photon has a charge of

Detailed Solution for Test: Dual Nature of Radiation of Matter- 1 (March 7) - Question 2

A photon is massless, has no electric charge, and is a stable particle. In vacuum, a photon has two possible polarization states. The photon is the gauge boson for electromagnetism, and therefore all other quantum numbers of the photon (such as lepton number, baryon number, and flavour quantum numbers) are zero.
 

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Test: Dual Nature of Radiation of Matter- 1 (March 7) - Question 3

Energy of a photon of green light of wavelength 5500m  is (given: h = 6.62 ×10−34Js−1) approximately

Detailed Solution for Test: Dual Nature of Radiation of Matter- 1 (March 7) - Question 3

As we know,
the formula for energy of photon in terms of wavelength is,, E = hc/ λ
where, E = energy of photon
h = Planck's constant =
= 6.63×10-34 Js
c = speed of light
= 3×108 m/s
and lambda = wavelength
so,
E = [6.63×10-34 J. s×3×108 m/s]/5500×10-10m
= [0.36×10-26]/10-8
= 0.36×10-18
= 3.6×10-19 J
Or, 2.26ev
 

Test: Dual Nature of Radiation of Matter- 1 (March 7) - Question 4

In which case is electron emission from a metal not known?

Detailed Solution for Test: Dual Nature of Radiation of Matter- 1 (March 7) - Question 4

The correct answer would be option B. Applying a very strong magnetic field.
Applying a very strong magnetic field to a metal we don’t know the electron emission.

Test: Dual Nature of Radiation of Matter- 1 (March 7) - Question 5

If the work function of a material is 2eV, then minimum frequency of light required to emit photo-electrons is 

Detailed Solution for Test: Dual Nature of Radiation of Matter- 1 (March 7) - Question 5

Φ= hνλ => 2eV= 6.626 x 10-34 x ν

2 x 1.6 x 10-19= 6.626 x 10-34 x ν

On solving we get ν = 4.6 x 1014 Hz.

Test: Dual Nature of Radiation of Matter- 1 (March 7) - Question 6

Photoelectric effect is

Detailed Solution for Test: Dual Nature of Radiation of Matter- 1 (March 7) - Question 6

Photoelectric effect, phenomenon in which electrically charged particles are released from or within a material when it absorbs electromagnetic radiation. The effect is often defined as the ejection of electrons from a metal plate when light falls on it. In a broader definition, the radiant energy may be infrared, visible, or ultraviolet light, X-rays, or gamma rays; the material may be a solid, liquid, or gas; and the released particles may be ions (electrically charged atoms or molecules) as well as electrons.

Test: Dual Nature of Radiation of Matter- 1 (March 7) - Question 7

Photoelectric effect is possible

Detailed Solution for Test: Dual Nature of Radiation of Matter- 1 (March 7) - Question 7

Photoelectrons will come out from the surface of the metal only if it gets enough energy during the irradiation the energy needed depends on the metal and the max energy that can be provided on the light.

Test: Dual Nature of Radiation of Matter- 1 (March 7) - Question 8

Davisson Germer experiment proves that

Detailed Solution for Test: Dual Nature of Radiation of Matter- 1 (March 7) - Question 8

Davisson and Germer Experiment, for the first time, proved the wave nature of electrons and verified the de Broglie equation. de Broglie argued the dual nature of matter back in 1924, but it was only later that Davisson and Germer experiment verified the results. The results established the first experimental proof of quantum mechanics. In this experiment, we will study the scattering of electrons by a Ni crystal.

Test: Dual Nature of Radiation of Matter- 1 (March 7) - Question 9

If work function of a metal plate is negligible then the K.E.of the photoelectrons emitted when radiations of 1000 Â are incident on the metal surface is

Detailed Solution for Test: Dual Nature of Radiation of Matter- 1 (March 7) - Question 9

Incident frequency=work function + kinetic energy.
incident frequency=E.
therefore, hc/λ=E
for energy in e.v & wavelength in Angstrom...
Now,
we know,
E=12400/λ Å
E(in e.v)=12400/1000.=12.4e.v

Test: Dual Nature of Radiation of Matter- 1 (March 7) - Question 10

The maximum kinetic energy of photoelectrons emitted from a surface when photons of energy 6 eV fall on it is 4 eV. The stopping potential is

Detailed Solution for Test: Dual Nature of Radiation of Matter- 1 (March 7) - Question 10

Given, the maximum kinetic energy: Kmax​=4eV
If V0​ be the stopping potential, then Kmax​=eV0
⇒eV0​=4eV 
⇒V0​=4V

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