Question 1

Light beams A and B have the same intensity but the wavelength associated with beam A is longer than that associated with beam B. The photon flux (number crossing a unit area per unit time) is:&#10;A) greater for A than for B&#10;B) greater for B than for A&#10;C) the same for A and B&#10;D) greater for A than for B only if both have short wavelengths&#10;E) greater for B than for A only if both have short wavelengths

Accepted Answer

greater for A than for B

Question 2

The quantization of energy, E = nhf, is not important for an ordinary pendulum because:&#10;A) the formula applies only to mass-spring oscillators&#10;B) the allowed energy levels are too closely spaced&#10;C) the allowed energy levels are too widely spaced&#10;D) the formula applies only to atoms&#10;E) the value of h for a pendulum is too large

Accepted Answer

the allowed energy levels are too closely spaced

Question 3

The intensity of a light beam with a wavelength of 500 nm is 2000 W/m². The photon flux (in number/m² . s) is about: A) 5 * 10¹⁷ B) 5 * 10¹⁹ C) 5 * 10²¹ D) 5 * 10²³ E) 5 * 10²⁵

Accepted Answer

5 * 10<sup>21</sup>&#10;

Question 4

The wavelength of light beam B is twice the wavelanght of light beam B. The energy of a photom in beam A is:&#10;A) half the energy of photon in beam B&#10;B) one-forth the energy of a photon in beam B&#10;C) equal to the energy of a photon in beam B&#10;D) twice energy of a photon in beam B&#10;E) four times the energy of a photon in beam B

Accepted Answer

The answer of The wavelength of light beam B is...

Question 5

The units of the Planck constant h are those of:&#10;A) energy&#10;B) power&#10;C) momentum&#10;D) angular momentum&#10;E) frequency

Accepted Answer

The answer of The units of the Planck constant h...

Question 6

The concentration of photons in a uniform light beam with a wavelength of 500 nm is 1.7 * 10¹³ nm ^- ¹³. The intensity of the beam is: A) 6.7 *10 ^- ⁶ W/m² B) 1.0 * 10³ W/m² C) 2.0 *10³ W/m² D) 4.0* 10³ W/m² E) 3.2 * 10² W/m²

Accepted Answer

The answer of The concentration of photons in a uniform...

Question 7

The frequency of light beam A is twice that of light beam B. The ratio E_A/E_B of photon energies is: A) 1/2 B) 1/4 C) 1 D) 2 E) 4

Accepted Answer

The answer of The frequency of light beam A is...

Question 8

A photon in light beam A has twice the energy of a photon in light beam B. The ratio p_A/p_B of their momenta is: A) 1/2 B) 1/4 C) 1 D) 2 E) 4

Accepted Answer

The answer of A photon in light beam A has...

Question 9

Which of the following electromagnetic radiations has photons with the greatest momentum?&#10;A) blue light&#10;B) yellow light&#10;C) x-rays&#10;D) radio waves&#10;E) microwaves

Accepted Answer

The answer of Which of the following electromagnetic radiations has...

Question 10

The work function for a certain sample is 2.3 eV. The stopping potential for electrons ejected from the sample by 7.0 * 10¹⁴-Hz electromagnetic radiation is: A) 0 B) 0.60 V C) 2.3 V D) 2.9 V E) 5.2 V

Accepted Answer

The answer of The work function for a certain sample...

Question 11

Which of the following electromagnetic radiations has photons with the greatest energy?&#10;A) blue light&#10;B) yellow light&#10;C) x-rays&#10;D) radio waves&#10;E) microwaves

Accepted Answer

The answer of Which of the following electromagnetic radiations has...

Question 12

Separate Compton effect experiments are carried out using visible light and x rays. The scattered radiation is observed at the same scattering angle. For these experiments:&#10;A) the x rays have the greater shift in wavelength and the greater change in photon energy&#10;B) the two radiations have the same shift in wavelength and the x rays have the greater change in photon energy&#10;C) the two radiations have the same shift in wavelength and the visible light has the greater change in photon energy&#10;D) the two radiatons have the same shift in wavelength and the same change in photon energy&#10;E) the visible light has the greater shift in wavelength and the greater shift in photon energy

Accepted Answer

The answer of Separate Compton effect experiments are carried out...

Question 13

Rank following electromagnetic radiations according to the energies of their photons, from least to greatest.  &#10;A) 1, 2, 3, 4&#10;B) 4, 2, 1, 3&#10;C) 4, 1, 2, 3&#10;D) 3, 2, 1, 4&#10;E) 3, 1, 2, 4

Accepted Answer

The answer of Rank following electromagnetic radiations according to the...

Question 14

The diagram shows the graphs of the stopping potential as a function of the frequency of the incident light for photoelectric experiments performed on three different materials. Rank the materials according to the values of their work functions, from least to greatest.

A) 1, 2, 3
B) 3, 2, 1
C) 2, 3, 1
D) 2, 1, 3
E) 1, 3, 2

Accepted Answer

The answer of The diagram shows the graphs of the...

Question 15

In a photoelectric effect experiment no electrons are ejected if the frequency of the incident light is less than A/h, where h is the Planck constant and A is:&#10;A) the maximum energy needed to eject the least energetic electron&#10;B) the minimum energy needed to eject the least energetic electron&#10;C) the maximum energy needed to eject the most energetic electron&#10;D) the minimum energy needed to eject the most energetic electron&#10;E) the intensity of the incident light

Accepted Answer

The answer of In a photoelectric effect experiment no electrons...

Question 16

In Compton scattering from stationary particles the maximum change in wavelength can be made smaller by using:&#10;A) higher frequency radiation&#10;B) lower frequency radiation&#10;C) more massive particles&#10;D) less massive particles&#10;E) particles with greater charge

Accepted Answer

The answer of In Compton scattering from stationary particles the...

Question 17

The stopping potential for electrons ejected by 6.8 * 10¹⁴-Hz electromagnetic radiation incident on a certain sample is 1.8 V. The kinetic energy of the most energetic electrons ejected and the work function of the sample, respectively, are:

A) 1.8 eV, 2.8 eV
B) 1.8 eV, 1.0 eV
C) 1.8 eV, 4.6 eV
D) 2.8 eV, 1.0 eV
E) 1.0 eV, 4.6 eV

Accepted Answer

The answer of The stopping potential for electrons ejected by...

Question 18

In a photoelectric effect experiment at a frequency above cut off, the stopping potential is proportional to:&#10;A) the energy of the least energetic electron before it is ejected&#10;B) the energy of the least energetic electron after it is ejected&#10;C) the energy of the most energetic electron before it is ejected&#10;D) the energy of the most energetic electron after it is ejected&#10;E) the electron potential energy at the surface of the sample

Accepted Answer

The answer of In a photoelectric effect experiment at a...

Question 19

In a photoelectric effect experiment the stopping potential is:&#10;A) the energy required to remove an electron from the sample&#10;B) the kinetic energy of the most energetic electron ejected&#10;C) the potential energy of the most energetic electron ejected&#10;D) the photon energy&#10;E) the electric potential that causes the electron current to vanish

Accepted Answer

The answer of In a photoelectric effect experiment the stopping...

Question 20

In a photoelectric effect experiment at a frequency above cut off, the number of electrons ejected is proportional to:&#10;A) their kinetic energy&#10;B) their potential energy&#10;C) the work function&#10;D) the frequency of the incident light&#10;E) the number of photons that hit the sample

Accepted Answer

The answer of In a photoelectric effect experiment at a...

Question 21

Consider the following:   The only possible processes are:&#10;A) I&#10;B) III&#10;C) I and III&#10;D) I and IV&#10;E) II and IV

Accepted Answer

The answer of Consider the following:   The only...

Question 22

In Compton scattering from stationary electrons the largest change in wavelength that can occur is: A) 2.43*10^-¹⁵ m B) 2.43 * 10^-¹² m C) 2.43*10^-⁹ m D) dependent on the frequency of the incident light E) dependent on the work function

Accepted Answer

The answer of In Compton scattering from stationary electrons the...

Question 23

Evidence for the wave nature of matter is:&#10;A) electron diffraction experiments of Davisson and Germer&#10;B) Thompson's measurement of e/m&#10;C) Young's double slit experiment&#10;D) the Compton effect&#10;E) Lenz's law

Accepted Answer

The answer of Evidence for the wave nature of matter...

Question 24

The frequency and wavelength of the matter wave associated with a 10-eV free electron are: A) 1.5 * 10³⁴ Hz, 3.9 *10^-¹⁰ m B) 1.5 *10³⁴ Hz, 1.3 *10^-³⁴ m C) 2.4 *10¹⁵ Hz, 1.2 *10^-⁹ m D) 2.4 * 10¹⁵ Hz, 3.9 *10^-¹⁰ m E) 4.8* 10¹⁵ Hz, 1.9 *10^-¹⁰ m

Accepted Answer

The answer of The frequency and wavelength of the matter...

Question 25

A non-relativistic free electron has kinetic energy K. If its wavelength doubles, its kinetic energy is:&#10;A) 4 K&#10;B) 2 K&#10;C) still K&#10;D) K/2&#10;E) K/4

Accepted Answer

The answer of A non-relativistic free electron has kinetic energy...

Question 26

A free electron and a free proton have the same kinetic energy. This means that, compared to the matter wave associated with the proton, the matter wave associated with the electron has:&#10;A) a shorter wavelength and a greater frequency&#10;B) a longer wavelength and a greater frequency&#10;C) a shorter wavelength and the same frequency&#10;D) a longer wavelength and the same frequency&#10;E) a shorter wavelength and a smaller frequency

Accepted Answer

The answer of A free electron and a free proton...

Question 27

In Compton scattering from stationary electrons the largest change in wavelength occurs when the photon is scattered through:&#10;A) 0$\degree$&#10;B) 22.5$\degree$&#10;C) 45$\degree$&#10;D) 90$\degree$&#10;E) 180$\degree$

Accepted Answer

The answer of In Compton scattering from stationary electrons the...

Question 28

Which of the following is NOT evidence for the wave nature of matter?&#10;A) The photoelectric effect&#10;B) The diffraction pattern obtained when electrons pass through a slit&#10;C) Electron tunneling&#10;D) The validity of the Heisenberg uncertainty principle&#10;E) The interference pattern obtained when electrons pass through a two-slit system

Accepted Answer

The answer of Which of the following is NOT evidence...

Question 29

A free electron has a momentum of 5.0 *10^-²⁴kg . m/s. The wavelength of its wave function is: A) 1.3* 10^-⁸m B) 1.3 * 10^-¹⁰m C) 2.3* 10^-¹¹m D) 2.3 * 10^-¹³m E) none of these

Accepted Answer

The answer of A free electron has a momentum of...

Question 30

In Compton scattering from stationary electrons the frequency of the emitted light is independent of:&#10;A) the frequency of the incident light&#10;B) the recoil speed of the electron&#10;C) the scattering angle&#10;D) the electron recoil energy&#10;E) none of the above

Accepted Answer

The answer of In Compton scattering from stationary electrons the...

Question 31

Monoenergetic electrons are incident on a single slit barrier. If the energy of each incident electron is increased the central maximum of the diffraction pattern:&#10;A) widens&#10;B) narrows&#10;C) stays the same width&#10;D) widens for slow electrons and narrows for fast electrons&#10;E) narrows for slow electrons and widens for fast electrons

Accepted Answer

The answer of Monoenergetic electrons are incident on a single...

Question 32

If the kinetic energy of a non-relativistic free electron doubles, the frequency of its wave function changes by the factor:&#10;A)  &#10;B) 1/2&#10;C) 1/4&#10;D)  &#10;E) 2

Accepted Answer

The answer of If the kinetic energy of a non-relativistic...

Question 33

Consider the following three particles:   Rank them according to the wavlengths of their matter waves, least to greatest.&#10;A) 1, 2, 3&#10;B) 3, 2, 1&#10;C) 2, 3, 1&#10;D) 1, 3, 2&#10;E) 1, then 2 and 3 tied

Accepted Answer

The answer of Consider the following three particles:  ...

Question 34

Consider the following three particles:   Rank them according to the wavelengths of their waves, least to greatest.&#10;A) 1, 2, 3&#10;B) 3, 2, 1&#10;C) 2, 3, 1&#10;D) 1, 3, 2&#10;E) 1, then 2 and 3 tied

Accepted Answer

The answer of Consider the following three particles:  ...

Question 35

Of the following which is the best evidence for the wave nature of matter?&#10;A) The photoelectric effect&#10;B) The Compton effect&#10;C) The spectral radiancy of cavity radiation&#10;D) The relationship between momentum and energy for an electron&#10;E) The reflection of electrons by crystals

Accepted Answer

The answer of Of the following which is the best...

Question 36

Electromagnetic radiation with a wavelength of 3.5 *10^-¹² m is scattered from stationary electrons and photons that have been scattered through 50 $\degree$ are detected. After a scattering event the magnitude of the electron's momentum is:

A) 0
B) 1.5 * 10^-²² kg.m/s
C) 2.0 * 10^-²² kg . m/s
D) 2.2 * 10^-²² kg . m/s
E) 8.7*10^-²³ kg .m/s

Accepted Answer

The answer of Electromagnetic radiation with a wavelength of 3.5...

Question 37

J. J. Thompson's measurement of e/m for electrons provides evidence of the:&#10;A) wave nature of matter&#10;B) particle nature of matter&#10;C) wave nature of radiation&#10;D) particle nature of radiation&#10;E) transverse wave nature of light

Accepted Answer

The answer of J. J. Thompson's measurement of e/m for...

Question 38

Of the following, Compton scattering from electrons is most easily observed for:&#10;A) microwaves&#10;B) infrared light&#10;C) visible light&#10;D) ultraviolet light&#10;E) x rays

Accepted Answer

The answer of Of the following, Compton scattering from electrons...

Question 39

Electromagnetic radiation with a wavelength of 3.5 *10^-¹² m is scattered from stationary electrons and photons that have been scattered through 50 $\degree$ are detected. An electron from which one of these photons was scattered receives an energy of:

A) 0
B) 1.1 * 10^-¹⁴ J
C) 1.9 *10^-¹⁴ J
D) 2.3 *10^-¹⁴ J
E) 1.3*10^-¹³ J

Accepted Answer

The answer of Electromagnetic radiation with a wavelength of 5.7...

Question 40

Electromagnetic radiation with a wavelength of 3.5 *10^-¹² m is scattered from stationary electrons and photons that have been scattered through 50 $\degree$ are detected. An electron from which one of these photons was scattered receives an energy of:

A) 0
B) 1.1 * 10^-¹⁴ J
C) 1.9 *10^-¹⁴ J
D) 2.3 *10^-¹⁴ J
E) 1.3*10^-¹³ J

Accepted Answer

The answer of Electromagnetic radiation with a wavelength of 3.5...

Question 41

An electron with energy E is incident upon a potential energy barrier of height E_pot > E and thickness L. The transmission coefficient T: A) is zero B) decreases exponentially with L C) is proportional to 1/L D) is proportional to 1/L² E) is non-zero and independent of L

Accepted Answer

The answer of An electron with energy E is incident...

Question 42

Maxwell's equations are to electric and magnetic fields as __________ equation is to the wave function of the particle.&#10;A) Einstein's&#10;B) Fermi's&#10;C) Newton's&#10;D) Schrodinger's&#10;E) Bohr's

Accepted Answer

The answer of Maxwell's equations are to electric and magnetic...

Question 43

$\Psi$(x) is the wave function for a particle moving along the x axis. The probability that the particle is in the interval from x = a to x = b is given by: A) $\Psi$(b) - $\Psi$(a) B) $\mid$$\Psi$(b)$\mid$/ $\mid$$\Psi$(a)$\mid$ C) $\mid$$\Psi$(b)$\mid$²/ $\mid$$\Psi$(a)$\mid$² D) E)

Accepted Answer

The answer of $\Psi$(x) is the wave function for a...

Question 44

In order to tunnel through a potential barrier a particle must:&#10;A) have energy greater than the barrier height&#10;B) have spin&#10;C) be massive&#10;D) have a wavelength longer than the barrier width&#10;E) none of the above

Accepted Answer

The answer of In order to tunnel through a potential...

Question 45

The reflection coefficient R for a certain barrier tunneling problem is 0.80. The corresponding transmission coefficient T is:&#10;A) 0.80&#10;B) 0.60&#10;C) 0.50&#10;D) 0.20&#10;E) zero

Accepted Answer

The answer of The reflection coefficient R for a certain...

Question 46

The significance of $\mid$$\Psi$$\mid$² is: A) probability B) energy C) probability density D) energy density E) wavelength

Accepted Answer

The answer of The significance of $\mid$$\Psi$$\mid$² is: A) probability B) energy C)...

Question 47

An electron with energy E is incident on a potential energy barrier of height E_pot and thickness L. The probability of tunneling increases if: A) E decreases without any other changes B) E_pot increases without any other changes C) L decreases without any other changes D) E and E_pot increase by the same amount E) E and E_pot decrease by the same amount

Accepted Answer

The answer of An electron with energy E is incident...

Question 48

A free electron in motion along the x axis has a localized wave function. The uncertainty in its momentum is decreased if:&#10;A) the wave function is made more narrow&#10;B) the wave function is made less narrow&#10;C) the wave function remains the same but the energy of the electron is increased&#10;D) the wave function remains the same but the energy of the electron is decreased&#10;E) none of the above

Accepted Answer

The answer of A free electron in motion along the...

Question 49

A free electron and a free proton have the same momentum. This means that, compared to the matter wave associated with the proton, the matter wave associated with the electron has:&#10;A) a shorter wavelength and a greater frequency&#10;B) a longer wavelength and a greater frequency&#10;C) the same wavelength and the same frequency&#10;D) the same wavelength and a greater frequency&#10;E) the same wavelength and a smaller frequency

Accepted Answer

The answer of A free electron and a free proton...

Question 50

The probability that a particle is in a given small region of space is proportional to:&#10;A) its energy&#10;B) its momentum&#10;C) the frequency of its wave function&#10;D) the wavelength of its wave function&#10;E) the square of the magnitude of its wave function

Accepted Answer

The answer of The probability that a particle is in...

Question 51

A free electron and a free proton have the same speed. This means that, compared to the matter wave associated with the proton, the matter wave associated with the electron has:&#10;A) a shorter wavelength and a greater frequency&#10;B) a longer wavelength and a greater frequency&#10;C) the same wavelength and the same frequency&#10;D) the same wavelength and a greater frequency&#10;E) a longer wavelength and a smaller frequency

Accepted Answer

The answer of A free electron and a free proton...

Question 52

Identical particles, each with energy E, are incident on the following four potential energy barriers:   Rank the barriers in terms of the probability that the particles tunnel through them, from least probability to greatest probability.&#10;A) 1, 2, 3, 4&#10;B) 4, 3, 2, 1&#10;C) 1 and 2 tied, then 3, then4&#10;D) 2, then 2 and 3 tied, then 4&#10;E) 3, 2, 1, 4

Accepted Answer

The answer of Identical particles, each with energy E, are...

Question 53

The uncertainty in position of an electron in a certain state is 5 *10^-¹⁰ m. The uncertainty in its momentum must be A) 5.0 *10^-²⁴ kg .m/s B) 4.0*10^-²⁴ kg .m/s C) 3.0 *10^-²⁴ kg .m/s D) all of the above E) none of the above

Accepted Answer

The answer of The uncertainty in position of an electron...

Deck 38: Photons and Matter Waves