Q#3 (a) Work function of the Aluminum is 4.08 eV. I. What is the threshold frequency required to produce photoelectrons from aluminum? II. Classify electromagnetic radiations that can produce photoelectrons. III. If light of frequency 4 x 1015 Hz is used to illuminate a piece of aluminum, then what is the maximum energy and spe ed of emitted photoelectrons?

Q#3 (a) Work function of the Aluminum is 4.08 eV. I. What is the threshold frequency required to produce photoelectrons from aluminum? II. Classify electromagnetic radiations that can produce photoelectrons. III. If light of frequency 4 x 1015 Hz is used to illuminate a piece of aluminum, then what is the maximum energy and spe ed of emitted photoelectrons?

Modern Physics

3rd Edition

ISBN:9781111794378

Author:Raymond A. Serway, Clement J. Moses, Curt A. Moyer

Publisher:Raymond A. Serway, Clement J. Moses, Curt A. Moyer

Chapter4: The Particle Nature Of Matter

Section: Chapter Questions

Problem 10P

See similar textbooks

Related questions

Q: (a) A nonrelativistic free particle with mass m has kinetic energy K. Derive an expression for the…

A: (a) De Broglie's wavelength = λ=hP ....(1) Here, h is the Planck's constant and P is momentum P = mv…

Q: 1. As the electromagnetic radiation interacts with atoms and molecules, the radiation beam acts like…

A: 1.(a) Photons or light quanta Explanation: Because em radiation is made up of light quanta of energy…

Q: A strange metallic rock is found and is being tested. Suppose that light with a frequency of 9.60 ✕…

A: Given that Incident frequency f = 9.60 X 1014 Hz Stopping potential V0 = 1.10 V

Q: If light of energy 9.00 eV is incident on gold, what is the maximum kinetic energy of the ejected…

A: Given data The energy of the incident light is Ein=9.00 eV The energy of the incident light is…

Q: What is the maximum speed of the ejected photoelectrons? The work function of platinum is 6.35 eV.

A: Given data: The wavelength of light is: λ = 145 nm The Planck’s constant is: h = 6.626×10-34 J.s The…

Q: Two light sources are used in a photoelectric experiment to determine the work function for a…

Q: If the cutoff wavelength for a particular material is 681 nm considering the photoelectric effect,…

Q: A metal has a work function of 3.1eV and is illuminated by light of wavelength λ = 320 nm. What…

Q: A 100-watt light bulb radiates energy at a rate of 100 J/s. (The watt, a unit of power or energy…

A: We’ll answer the first question since the exact one wasn’t specified. Please submit a new question…

Q: The work function for platinum is 6.35 eV. (a) Convert the value of the work function from electron…

A: As per our guidelines, we can answer only 1 question with maximum of 3 subparts, per session. Hence,…

Q: The work function (i.e. the binding energy of the electrons to the atom) of copper is 4.7 eV. A beam…

Q: 7. Ultraviolet light of wavelength 4.00 x 10 m irradiates a certain material, releasing…

Q: Q2: a) The photoelectric threshold wavelength of a tungsten surface is 272nm. Calculate the maximum…

Q: Q-25: Green light shining on sodium surface causes photoelectrons with maximum kinetic energies of…

A: Given that --- maximum kinetic energies = 0.02 e V. work function of sodium= 2.28 e V, Question ?…

Q: Which of the following predictions are contradictions to the photoelectric effect's observations? I.…

A: option number I. and II. are contradictions to the photoelectric effect's observations ,…

Q: 3. UV radiation photons with a wavelength of 3.45 x 10-7 m are incident on a metal surface in a…

Q: When a 546 nm light is used in a photoelectric experiment, the stopping potential is 0.38 V. i.…

Q: Two light sources are used in a photoelectric experiment to determine the work function for a…

A: Part (a):

Q: UV radiation having a wavelength of 127 nm falls on iron metal, whose work function is 4.50 ev. What…

A: Photon energy is given by E=hcλ h=6.626×10-34J·s is Planck's constant. c=3.0×108 m/s is the speed of…

Q: A metal surface is illuminated with light of different wavelengths and the corresponding stopping…

A: In the following question we have been provided varying stopping potential with field which will…

Q: 12. In a photoelectric experiment, a student obtained the following data: TT Frequency of Radiation…

A: Given information:

Q: When ultraviolet light with a wavelength of 400 nm falls on a certain metal surface, the maximum…

A: Given : Wavelength of ultraviolet light λ = 400 nm Kinetic Energy = 1.10 eV…

Q: UV radiation having a wavelength of 119 nm falls on aluminum metal, whose work function is 4.08 ev.…

A: Photoelectric effect The photoelectric effect is a phenomenon in which electrically charged…

Q: An electron in a piece of aluminum requires at least 6.73e-19 J of energy to be ejected from the…

A: Photoelectric effect: When electromagnetic radiation such as light hits n the surface of the…

Q: UV radiation having a wavelength of 120 nm falls on gold metal, to which electrons are bound by 4.82…

Q: Ex2/A metal surface is illuminated with light of different wavelengths and the corresponding…

A: Write the relation between wavelength, potential of the photoelectrons, and Plank's constant as…

Q: A metal has a work function of 3.1eV and is illuminated by light of wavelength λ = 320 nm. What…

Q: A given material has a work function of 9.0 eV, answer a) If light is incident with wavelength λ=…

Q: module. 1. A Blu-Ray player uses a diode laser with a wavelength ofABR = 405 nm, and is reported…

A: Given that:- Power of Blu Ray=5mW

Q: What is the maximum velocity of a photoelectron emitted

A: Given data: Work function W=6.2eV The wavelength of ultraviolet light λ=181 nm

Q: The work function for nickel is 5.15 eV. (a) Convert the value of the work function from electron…

A: a) The value of work function in Joule is, b) The required cutoff frequency is,

Q: For a certain metal, the threshold wavelength for the photoelectric effect is 664.0 nm. What is the…

Q: Two light sources are used in a photoelectric experiment to determine the work function for a…

A: (a). the work function of the metal is

Q: 39 if we plot a graph between frequency of light used and maximum K.E of photoelectrons it will be a…

A: Answer : Option d is correct i .e. The slope of the graph is constant called Planck's…

Q: A metal surface is illuminated with light of different wavelengths and the corresponding stopping…

A: Wavelengths: λ1=5581 Angstrom λ1=6156 Angstrom λ1=6371 Angstrom Stoping potentials: V1=1.05 V…

Concept explainers

Particle Theory of Light

The particle theory of light was the proposal made by Newton in 1704 in his treatise Opticks. This is the most basic light theory, in which light is thought to be made up of microscopic particles known as "corpuscles" and that's why this particle theory of light is also named as Corpuscular theory of light.

Stopping Potential

In an experiment conducted by Heinrich Hertz, an apparatus was made where the incident light was made to fall on the metallic plate, it was discovered that metals emit electrons. The surface electrons are bound to metals with a minimum amount of energy and some of the incident photos enter the surface, they undergo collision with the atoms of the metal, they get absorbed and emit energy to an election, making it photoelectron, where the collision between the photons and electrons ejects the electrons out of the metal and with a negatively charged electron, causes photocurrent and when this current passes it creates an electric field where there is a potential difference at the output due to the anode and cathode of the electrode of the apparatus. This study involves the theory of Quantum physics and electromagnetism involving electromagnetic radiation and electromagnetic wave theory.

Quantization of Charges

An electron is a negatively charged subatomic particle either attached to an an atom or sticks to the nucleus of the atom. Electrons exert the negative charge that tries to balance the positive charge of the nucleus.

Question

(b) Derive Rutherford scattering formula of alpha radiations from a gold foil on the basis of nuclear model of
atom. Why did planetary model of atom fail?
(c) What are the short comes in Rayleigh formula for the explanation of energy distribution in blackbody
radiations? Derive Planck's radiation formula from Rayleigh formula and express it in terms of wavelength.
Q#3 (a) Work function of the Aluminum is 4.08 eV.
I.
What is the threshold frequency required to produce photoelectrons from aluminum?
II.
Classify electromagnetic radiations that can produce photoelectrons.
III.
If light of frequency 4 x 1015 Hz is used to illuminate a piece of aluminum, then what is the maximum
energy and speed of emitted photoelectrons?
IV.
If the light described in part (ii) is increased by a factor of 2 in intensity, what would happen to the
maximum kinetic energy of photoelectrons?
f200 V What is the de

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 2 steps

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, physics and related others by exploring similar questions and additional content below.

Similar questions

A carbon dioxide laser used in surgery emits infrared radiation with a wavelength of 10.6 µm . In 1.00 ms, this laser raised the temperature of 1.00 cm of flesh to and evaporated it. (a) How many photons were required? You may assume that flesh has the same heat of vaporization as water, (b) What was the minimum power output during the flash?
CT scanners do not detect details smaller than about 0.5 Is this limitation clue to the wavelength of x lays? Explain.
Why does the energy of characteristic x rays become increasingly greater for heavier atoms?
Check Your Understanding X-rays are produced by bombarding a metal target with high-energy electrons. If the target is replaced by another with two times the atomic number, what happens to the frequency of X-rays?
In a scattering experiment, you concentrate on Alpha particles with impact parameters b=0, 1×10^-3, and 1×10^0 mm. For which b will the behavior of the Alpha particle be very different in Thomson's and Rutherford's models and for which will it be nearly similar?
What fraction of 5-MeV alpha particles will be scattered through an angle greater than 8° from a gold foil (Z=79, density = 19.3 g/cm^3) of thickness of 10^-8m?
In Rutherford's scattering of alpha-particles in a thin gold foil, one neglects the effect of atomic electrons on the alpha-particles. Why?
During the deep X-ray therapy high energy X-rays are used. They are filtered by passing themthrough copper and aluminium plates. If the copper plate has thickness ?1 = 1 mm and aluminiumplate ?2 = 5 mm, find reduction in X-ray beam intensity. Linear attenuation coefficients for copperand aluminium are ?1 = 0,32 cm –1, and ?2 = 0,15 cm –1, respectively.
Compton scattering occurs for 0.662 MeV gamma rays. If a photon is dispersed at an angle of 60.0 degrees, what is its energy?
(a) Assuming it is nonrelativistic, calculate the velocity of an electron with a 0.100-fm wavelength (small enough to detect details of a nucleus). (b) What is unreasonable about this result? (c) Which assumptions are unreasonable orinconsistent?
¥ B Which o the following satement i ncorrect - (1) Ky emission has higher wavelength and encrgy than kg (1) First line of Lyman series has. :mgy%(imn energy of first line of Balmer series, both for H-atom, (111 For a free Heatom during emission of photon, momentum of He-atom does not change (IV) If on €™ of energy 1036V is from n= 110~ 2in H-atom| lides of with stationary H-atom then excitation of e~ takes places @ L ) LV (@ 1Lam @ LV
What is a reradiating surface? What simplifications does a reradiating surface offer in the radiation analysis?