Modern Physics
Modern Physics
3rd Edition
ISBN: 9781111794378
Author: Raymond A. Serway, Clement J. Moses, Curt A. Moyer
Publisher: Cengage Learning
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Chapter 5, Problem 22P

(a)

To determine

The slit width needed to resolve the interference pattern of the electrons if their kinetic energy is 0.010 MeV .

(a)

Expert Solution
Check Mark

Answer to Problem 22P

The slit width needed to resolve the interference pattern of the electrons if their kinetic energy becomes 0.010 MeV is 0.0961 nm .

Explanation of Solution

Write the relativistic expression for the kinetic energy.

  K=(γ1)mc2

Here, K is the kinetic energy, γ is the Lorentz factor, m is the mass of the particle and c is the speed of light in vacuum.

Rewrite the above equation for γ .

  γ1=Kmc2γ=Kmc2+1        (I)

Write the equation for the Lorentz factor.

  γ=11v2/c2

Here, v is the speed of the electron.

Rewrite the above equation for v .

  v=c(11γ2)1/2        (II)

Write the equation for the momentum.

  p=γmv        (III)

Here, p is the momentum of the electron.

Write the uncertainty principle.

  ΔxΔp2        (IV)

Here, Δx is the uncertainty in position, Δp is the uncertainty in momentum and is the reduced Planck’s constant.

The uncertainty in position must be equal to the slit width and since it is required to resolve a one percent difference in momentum, the value of Δp must be 0.01p .

Substitute a for Δx and 0.01p for Δp in equation (IV).

  (a)(0.01p)20.01pa=2a=2(0.01p)        (V)

Conclusion:

The mass of the electron is 9.11×1031 kg , the value of c is 3.0×108 m/s , the value of mc2 for electron is 0.511 MeV and the value of is 1.054×1034 Js .

Substitute 0.01 MeV for K and 0.511 MeV for mc2 in equation (I) to find γ .

  γ=0.01 MeV0.511 MeV+1=1.02

Substitute 3.0×108 m/s for c and 1.02 for γ in equation (II) to find v .

  v=(3.0×108 m/s)(11(1.02)2)1/2=5.91×107 m/s

Substitute 1.02 for γ , 9.11×1031 kg for m and 5.91×107 m/s for v in equation (III) to find p .

  p=(1.02)(9.11×1031 kg)(5.91×107 m/s)=5.49×1023 kgm/s

Substitute 1.054×1034 Js for and 5.49×1023 kgm/s for p in equation (V) to find a .

  a=1.054×1034 Js2(0.01)(5.49×1023 kgm/s)=0.0961×109 m1 nm109 m=0.0961 nm

Therefore, the slit width needed to resolve the interference pattern of the electrons if their kinetic energy becomes 0.010 MeV is 0.0961 nm .

(b)

To determine

The slit width needed to resolve the interference pattern of the electrons if their kinetic energy is 1.0 MeV .

(b)

Expert Solution
Check Mark

Answer to Problem 22P

The slit width needed to resolve the interference pattern of the electrons if their kinetic energy becomes 1.0 MeV is 0.00694 nm .

Explanation of Solution

The value of the slit width can be determined in the same way used in part (a).

Conclusion:

Substitute 1.0 MeV for K and 0.511 MeV for mc2 in equation (I) to find γ .

  γ=1.0 MeV0.511 MeV+1=2.96

Substitute 3.0×108 m/s for c and 2.96 for γ in equation (II) to find v .

  v=(3.0×108 m/s)(11(2.96)2)1/2=2.82×108 m/s

Substitute 2.96 for γ , 9.11×1031 kg for m and 2.82×108 m/s for v in equation (III) to find p .

  p=(2.96)(9.11×1031 kg)(2.82×108 m/s)=7.60×1022 kgm/s

Substitute 1.054×1034 Js for and 7.60×1022 kgm/s for p in equation (V) to find a .

  a=1.054×1034 Js2(0.01)(7.60×1022 kgm/s)=0.00694×109 m1 nm109 m=0.00694 nm

Therefore, the slit width needed to resolve the interference pattern of the electrons if their kinetic energy becomes 1.0 MeV is 0.00694 nm .

(c)

To determine

The slit width needed to resolve the interference pattern of the electrons if their kinetic energy is 100 MeV .

(c)

Expert Solution
Check Mark

Answer to Problem 22P

The slit width needed to resolve the interference pattern of the electrons if their kinetic energy becomes 100 MeV is 9.80×1014 nm .

Explanation of Solution

The value of the slit width can be determined in the same way used in part (a).

Conclusion:

Substitute 100 MeV for K and 0.511 MeV for mc2 in equation (I) to find γ .

  γ=100 MeV0.511 MeV+1=197

Substitute 3.0×108 m/s for c and 197 for γ in equation (II) to find v .

  v=(3.0×108 m/s)(11(197)2)1/2=3.00×108 m/s

Substitute 197 for γ , 9.11×1031 kg for m and 3.00×108 m/s for v in equation (III) to find p .

  p=(197)(9.11×1031 kg)(3.00×108 m/s)=5.38×1020 kgm/s

Substitute 1.054×1034 Js for and 5.38×1020 kgm/s for p in equation (V) to find a .

  a=1.054×1034 Js2(0.01)(5.38×1020 kgm/s)=9.80×1023 m1 nm109 m=9.80×1014 nm

Therefore, the slit width needed to resolve the interference pattern of the electrons if their kinetic energy becomes 100 MeV is 9.80×1014 nm .

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