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NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12 PDF Download

2024

Q1: If c is the velocity of light in free space, the correct statements about photon among the following are:
A. The energy of a photon is E = hv.
B. The velocity of a photon is c.
C. The momentum of a photon, p = hv / c.
D. In a photon-electron collision, both total energy and total momentum are conserved.
E. Photon possesses positive charge.
Choose the correct answer from the options given below:
(a) A and B only
(b) A, B, C and D only
(c) A, C and D only
(d) A, B, D and E only          [2024]
Ans:
(b)
A. The energy of a photon is E = hv.
This statement is correct. The energy of a photon is given by the equation:
E = hv
where
E is the energy, h is Planck's constant, and v (also written as ν) is the frequency of the photon.
B. The velocity of a photon is c.
This statement is also correct. In free space (vacuum), the velocity of light, and hence the velocity of a photon, is constant and is denoted by c.
C. The momentum of a photon, p = hv / c.
This statement is correct as well. The momentum p of a photon can be expressed as:
p = E / c = hv / c
D. In a photon-electron collision, both total energy and total momentum are conserved.
This statement is correct. During collisions involving photons and electrons, such as Compton scattering, both energy and momentum are conserved.
E. Photon possesses positive charge.
This statement is incorrect. Photons are electrically neutral particles and do not possess any charge.
Based on the analysis, the correct statements are A, B, C, and D. Therefore, the correct answer is:
Option B
A, B, C, and D only

Q2: The graph which shows the variation of (1 / λ2) and its kinetic energy, E is (where λ is de Broglie wavelength of a free particle):
(a) NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
(b) NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
(c) NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
(d) NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12     [2024]
Ans:
(d)
de-Broglie wavelength NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
Squaring both sides,
NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
Graph passes through origin with constant slope.

2023

Q1: The work functions of Caesium (Cs), Potassium (K), and Sodium (Na) are 2.14 eV, 2.30 eV, and 2.75 eV respectively. If incident electromagnetic radiation has an incident energy of 2.20 eV, which of these photosensitive surfaces may emit photoelectrons?      
A: Cs only
B: Both Na and K
C: K only
D: Na only
Ans: 
A
Solution: Energy of incident radiation = 2.80 eV
The work function of Cs → 2.14 eV
The work function of K → 2.30 eV
The work function of Na → 2.75 eV
Since the work functions of potassium and sodium are more than the energy of incident radiation hence photons may be emitted from cesium.

Q2: The minimum wavelength of X-rays produced by an electron accelerated through a potential difference of V  volts is proportional to :
(a) 1/V
(b) 1/√V
(c) V2
(d) √V
Ans:
(a)
Minimum wavelength of X-Rays is

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

2022

Q1: The light rays having photons of energy 4.2 eV are falling on a metal surface having a work function of 2.2 eV. The stopping potential of the surface is
(a) 6.4 V
(b) 2 eV
(c) 2 V
(d) 1.1 V
Ans:
(c)

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

Q2: The threshold frequency of a photoelectric metal is v0. If light of frequency 4v0 is incident on this metal, then the maximum kinetic energy of emitted electrons will be :
(a) 4 hv0 
(b) hv0 
(c) 2 hv0 
(d) 3 hv0 
Ans:
(d)
According to Einstein's photoelectric equation

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

Q3:  When two monochromatic lights of frequency, ν and ν/2 are incident on a photoelectric metal, their stopping potential becomes Vs/2 and Vs respectively. The threshold frequency for this metal is    
A: 3ν
B: 2/3ν
C: 3/2ν
D: 2ν
Ans: (c)
NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

2021

Q1: The number of photons per second on average emitted by the source of monochromatic light of wavelength 600 nm, when it delivers the power of 3.3 × 10–3 watts will be : (h = 6.6 × 10–34 Js)      
A: 1016
B: 1015
C: 1018
D: 1017
Ans: 
A
Solution:

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

Q2: An electromagnetic wave of wavelength 'λ' is incident on a photosensitive surface of negligible work function. If 'm' is the mass of photoelectron emitted from the surface that has de-Broglie wavelength λd, then:     
A: NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

B:NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
C: NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
D: NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
Ans: A
Solution:

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12 

2020

Q1: Light of frequency 1.5 times the threshold frequency is incident on a photosensitive material. What will be the photoelectric current if the frequency is halved and the intensity is doubled?    
A: one-fourth
B: Zero 

C: doubled
D: four times

Ans: B
Solution:
f0 < f1 = 1.5 f0
∴ f2 = 0.75 f0 
for given condition
fincident < fthreshold 
so no photo electron emission
i = 0

Q2: The de-Broglie wavelength of an electron moving with kinetic energy of 144 eV is nearly
(a) 102 × 10−3 nm
(b) 102 × 10−4 nm
(c) 102 × 10−5 nm
(d) 102 × 10−2 nm
Ans:
(d)
Kinetic energy of electron, K = 144 eV
⇒ eV = 144 eV
⇒ V = 144 V
∴ de-Broglie wavelength

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

Q3: The wave nature of electrons was experimentally verified by
(a) de-Broglie
(b) Hertz
(c) Einstein
(d) Davisson and Germer
Ans:
(a)
The wave nature of electrons was experimentally verified by de-Broglie.

2019

Q1: An electron is accelerated through a potential difference of 10,000 V. Its de-Broglie wavelength is, (nearly) : (me = 9 × 10–31 kg)    
A: 12.2 × 10–13 m
B: 12.2 × 10–12 m
C: 12.2 × 10–14 m
D: 12.2 nm
Ans: B
For an electron accelerated through a potential V

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

Q2: The work function of a photosensitive material is 4.0 eV.
This longest wavelength of light that can cause photon emission from the substance is (approximately)
(a) 3100 nm
(b) 966 nm
(c) 31 nm
(d) 310 nm
Ans:
(d)
The work function of material is given by

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

where, h = Planck’s constant = 6.63 × 10−34 J-s
c = speed of length = 3 × 108 ms−1 
and λ = wavelength of light
Here, φ = 4 eV = 4 × 1.6 × 10 −19 J
Substituting the given values in Eq. (i), we get

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

Q3: An electron is accelerated through a potential difference of 10,000 V.
Its de-Broglie wavelength is, (nearly) : (m e = 9 × 10−31 kg)
(a) 12.2 × 10−12 m
(b) 12.2 × 10−14m
(c) 12.2 nm
(d) 12.2 × 10−13m
Ans:
(a)
Given, potential difference, V = 10000 V If electron is accelerated through a potential of V volt, then the wavelength associated with it is given by

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

where, h = Planck’s constant = 6.63 × 10−34 J-s,
e = electronic charge = 1.6 × 10−19 C a
nd me = mass of electron = 9 × 10−31 kg Substituting these values in Eq. (i),
we get

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

2018

Q1: An electron of mass m with an initial velocityNEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12enters an electric field NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12E0 = constant > 0) at t = 0. If λ0 is its de-Broglie wavelength initially, then its de-Broglie wavelength at time t is:    
A: NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
B: NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
C: λ0t
D: λ0
Ans: A
NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

Q2: When the light of frequency 2v0 (where v0 is threshold frequency), is incident on a metal plate, the maximum velocity of electrons emitted is v1. When the frequency of the incident radiation is increased to 5 v0, the maximum velocity of electrons emitted from the same plate is v2. The ratio of v1 to v2 is :-    
A: 1 : 2
B: 1 : 4
C: 4 : 1
D: 2 : 1
Ans: A
Solution:
NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

Q3: When the light of frequency 2ν0 (where, ν0 is threshold frequency), is incident on a metal plate, the maximum velocity of electrons emitted is v1 . When the frequency of the incident radiation is increased to 5ν0 , the maximum velocity of electrons emitted from the same plate is v2 . The ratio of v1 to v2 is
(a) 4 : 1 
(b) 1 : 4 
(c) 1 : 2 
(d) 2 : 1
Ans: (c)
According to the Einstein’s photoelectric equation,

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

where, Kmax is the maximum kinetic energy of photoelectrons having maximum velocity vmax. When incident frequency of light, v = 2v0 Substituting the value of ν in Eq. (i), we get

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

If incident frequency of radiation, ν = 5ν0 Substituting the value of ν in Eq. (i), we get

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

On dividing Eq. (ii) by Eq (iii), we get

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12


2017

Q1: The photoelectric threshold wavelength of silver is 3250 × 10–10m. The velocity of the electron ejected from a silver surface by ultraviolet light of wavelength 2536 × 10–10 m is:    
(Given h = 4.14 × 10–15 eVs and c = 3 × 108 ms–1)
A: ≈ 0.6 × 106 ms–1
B: ≈ 61 × 103 ms–1
C: ≈ 0.3 × 106 ms–1
D: ≈ 6 × 105 ms–1
Ans: A
Solution:
NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

Q2: The de-Broglie wavelength of a neutron in thermal equilibrium with heavy water at a temperature T (Kelvin) and mass m, is
(a) NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

(b) NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

(c) NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

(d) NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

Ans: (b)
Thinking Process de-Broglie wavelength associated with a moving particle can be given as

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

At thermal equilibrium, temperature of neutron and heavy water will be same. This common temperature is given as, T. Also, we know that, kinetic energy of a particle

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

where, p = momentum of the particle m = mass of the particle Kinetic energy of the neutron is
K.E. = 3/2 kT
∴ de-Broglie wavelength of the neutron

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

2016

Q1: When a metallic surface is illuminated with radiation of wavelength λ the stopping potential is V. If the same surface is illuminated with radiation of wavelength 2λ, the stopping potential is V/4. The threshold wavelength for the metallic surface is :    
A: 3λ
B: 4λ
C: 5λ
D: 5/2λ
Ans: A
When a metallic surface is illuminated with radiation of wavelength λ, the stopping potential is V.
The photoelectric equation can be written as,
NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
Now, when the same surface is illuminated with radiation of wavelength 2λ, the stopping potential is V/4. So, the photoelectric equation can be written as,
NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
From equations (i) and (ii), we get
NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
When a metallic surface is illuminated with radiation of wavelength λ stopping potential is V.
The photoelectric equation can be written as,
NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
Now, when the same surface is illuminated with radiation of wavelength 2λ, the stopping potential is V/4. So, the photoelectric equation can be written as,
NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
From equations (i) and (ii), we get
NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

Q2: An electron of mass m and a photon have the same energy E. The ratio of de-Broglie wavelengths associated with them is:  
A:
NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
B:

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
C:

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
D: c(2mE)1/2
Ans: B
Given that an electron has a mass of m.
De-Broglie wavelength for an electron will be given as,
NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
where,
h is the Planck's constant, and
p is the linear momentum of the electron
The kinetic energy of the electron is given by, NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
From equation (i) and (ii), we have
NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
The energy of a photon can be given as,
NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
Hence, λP is the de-Broglie wavelength of the photon.
Now, dividing equation (iii) by (iv), we get
NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

Q3: Photons with energy 5 eV are incident on a cathode C in a photoelectric cell. The maximum energy of emitted photoelectrons is 2 eV. When photons of energy 6 eV are incident on C, no photoelectrons will reach the anode A, if the stopping potential of A relative to C is 
(a) + 3 V
(b) + 4 V 
(c) – 1 V 
(d) – 3 V
Ans: (d)
Key Idea Use Einstein’s photoelectric equation.
We know that, E = (KE)max + Work function (φ)
where, φ = hν0 E = hν

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

Q4: Electrons of mass m with de-Broglie wavelength λ fall on the target in an X-ray tube. The cut-off wavelength (λ 0 ) of the emitted X-ray is
NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
Ans: 
(a)
Cut-off wavelength occurs when incoming electron looses its complete energy in collision. This energy appears in the form of X-rays.
Given, mass of electrons = m
de-Broglie wavelength = λ
So, kinetic energy of electron = p2/2m

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

Now, maximum energy of photon can be given by

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

2015

Q1: A certain metallic surface is illuminated with monochromatic light of wavelength, λ. The stopping potential for photo-electric current for this light is 3V0. If the same surface is illuminated with light of wavelength 2λ, the stopping potential is V0. The threshold wavelength for this surface for the photoelectric effect is :    
A: λ/6
B: 6λ
C: 4λ
D: λ/4
Ans: 
C
We have,

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
where W is the work function and (3V0) is the stopping potential when monochromatic light of wavelength λ is used.

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
where V0 is the stopping potential when monochromatic light of wavelength 2λ is used.
Subtracting equation (2) from equation (1)
We get,
NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
Substituting in equation (2) we get,
NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
∴  NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
The threshold wavelength is therefore 4λ.

Q2: Which of the following figures represents the variation of the particle momentum and the associated de-Broglie wavelength?  
A:

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
B:

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
C:
NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12


D:

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
Ans: 
C
The de-Broglie wavelength is given by
NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

This equation is in the form of yx = c, which is the equation of a rectangular hyperbola.
The de-Broglie wavelength is given by
NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
This equation is in the form of yx = c, which is the equation of a rectangular hyperbola.

Q3: A photoelectric surface is illuminated successively by monochromatic light of wavelength λ and λ/2. If the maximum kinetic energy of the emitted photoelectrons in the second case is 3 times that in the first case, the work function of the surface of the material is (h = Planck’s constant, c = speed of light)
(a) NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
(b) NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
(c) NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
(d) NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
Ans: (a)
According to Einstein’s photoelectric equation,
E = Kmax +  φ
where, Kmax is maximum kinetic energy of emitted electron and φ is work function of an electron.NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
Similarly, in second case, maximum kinetic energy of emitted electron is 3 times that in first case, we getNEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
Solving Eqs. (i) and (ii), we get work function of an emitted electron from  a metal surface.
NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

2014

Q1: When the energy of the incident radiation is increased by 20%, the kinetic energy of the photoelectrons emitted from a metal surface increases from 0.5 eV to 0.8 eV. The work function of the metal is :    
A: 1.3 eV
B: 1.5 eV
C: 0.65 eV
D: 1.0 eV
Ans: 
D
Solution:
The original energy of the photon is E0
NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12
From equation (i) and (ii)
NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

Q2: If the kinetic energy of the particle is increased to 16 times its previous value, the percentage change in the de−Broglie wavelength of the particle is :  
A: 60
B: 50
C: 25
D: 75
Ans: 
D
Solution:

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

Q3: Light of wavelength 500 nm is incident on a metal with work function 2.28 eV. The de-Broglie wavelength of the emitted electron is
(a) < 2.8 × 10− 10 m
(b) < 2.8 × 10− 9 m
(c) ≥ 2.8 × 10− 9 m
(d) ≤ 2.8 × 10− 12 m
Ans:
(c)
As, energy of photon, E = hν

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

According to Einstein’s photoelectric emission, we have
KEmax = E − W = 2.48 − 2.28 = 0.2 eV
For de-Broglie wavelength of the emitted electron,

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

Thus, minimum wavelength of the emitted electron is

NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12

The document NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter | Physics Class 12 is a part of the NEET Course Physics Class 12.
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FAQs on NEET Previous Year Questions (2014-2024): Dual Nature of Radiation & Matter - Physics Class 12

1. What is the photoelectric effect?
Ans. The photoelectric effect is the phenomenon where electrons are emitted from a material when it is exposed to light of suitable frequency. This effect was one of the key pieces of evidence for the quantization of light and the particle-like behavior of photons.
2. How does the photoelectric effect support the wave-particle duality of light?
Ans. The photoelectric effect supports the wave-particle duality of light by demonstrating that light can behave as both a wave and a particle. In this case, light behaves as a particle (photon) when it interacts with matter to eject electrons, showing the particle-like nature of light.
3. What is the threshold frequency in the context of the photoelectric effect?
Ans. The threshold frequency is the minimum frequency of light required to eject electrons from a material in the photoelectric effect. Below this frequency, no electrons are emitted regardless of the intensity of the light.
4. How does the kinetic energy of emitted electrons in the photoelectric effect depend on the frequency of light?
Ans. The kinetic energy of emitted electrons in the photoelectric effect is directly proportional to the frequency of light. Higher frequency light results in electrons with higher kinetic energy, as each photon carries a specific amount of energy.
5. What is the significance of the work function in the photoelectric effect?
Ans. The work function is the minimum amount of energy required to remove an electron from a material. It plays a crucial role in determining whether the photoelectric effect will occur for a given material and frequency of light.
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