EBK PHYSICS FOR SCIENTISTS AND ENGINEER
EBK PHYSICS FOR SCIENTISTS AND ENGINEER
6th Edition
ISBN: 9781319321710
Author: Mosca
Publisher: VST
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Chapter 33, Problem 74P

(a)

To determine

To show that the phase difference between the waves from two adjacent slits is given by ϕ=2πdλsinθ .

(a)

Expert Solution
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Explanation of Solution

Given:

The path difference is calculated by considering two slits separated by a distance d .

Formula used:

Write the equation of sinusoidal wave coming from first slit.

  y=Asink(x+λ)

Here, A is the amplitude of sinusoidal wave, λ is the angle of wave.

Write the path difference of a sinusoidal wave is given as

  Δx=dsinθ ....... (1)

Here, d is the distance between the two slits.

Calculation:

A sine wave repeats itself after a regular interval of 2π . So,

  kλ=2πk=2πλ

Suppose two waves having same phase initially travel different distances x and x+Δx interfere at point. Then two waves can be written as

  y1=A1sin(kx+ωt)y2=A2sin(k( x+Δx)ωt)=A2sin(kxωt+ϕ)

Here, ϕ is the phase difference of two waves at a point.

  ϕ=kΔx

Substitute 2πλ for k and dsinθ for Δx in above equation.

  ϕ=2πdλsinθ

Conclusion:

Thus, phase difference is given as ϕ=2πdλsinθ .

To determine

The differentiated form of phase difference is given by dϕ=2πdλcosθdθ .

Expert Solution
Check Mark

Explanation of Solution

Given:

The phase difference of two waves is given as

  ϕ=2πdλsinθ   ........ (2)

Formula used:

Write the differentiateof sinθ ,

  d(sinθ)dθ=cosθ

Rearrange the above equation.

  d(sinθ)=cosθdθ

Calculation:

Differentiate the equation (1).

  dϕ=2πdλd(sinθ)

Substitute cosθdθ for d(sinθ) .

  dϕ=2πdλcosθdθ

Conclusion:

Thus,the differentiatedform of phase difference is given by dϕ=2πdλcosθdθ .

To determine

The angular separation between the intensity maximum and minimum for some wavelength is dθ=λNdcosθ .

Expert Solution
Check Mark

Explanation of Solution

Given:

The angular separation between an interference maximum and an interference minimum corresponds to a phase change of

  dϕ=2πN ...... (3)

Formula Used:

Write the differentiate of phase difference is given by

  dϕ=2πdλcosθdθ ....... (4)

Calculation:

Substitute 2πN for dϕ in equation (4).

  2πN=2πdλcosθdθ

Rearrange the above equation.

  dθ=λNdcosθdθ

Conclusion:

Thus, the angular separation between the intensity maximum and minimum for some wavelength is dθ=λNdcosθ .

(d)

To determine

The angular separation of the mth order maximum for two nearly equal wavelengths differing by dλ is given by dθ=mdλdcosθ .

(d)

Expert Solution
Check Mark

Explanation of Solution

Given:

The angle of mth order interference maximum for wavelength λ is given by

  dsinθ=mλ ....... (5)}

Formula used:

Write the differentiation of sinθ

  d(sinθ)dθ=cosθ

Rearrange the above equation.

  d(sinθ)=cosθdθ

Calculation:

Differentiate equation (5).

  dd(sinθ)=mdλ

Substitute cosθdθ for d(sinθ) and rearrange.

  dcosθdθ=mdλdθ=mdλdcosθ

Conclusion:

Thus,the angular separation of the mth order maximum for two nearly equal wavelengths differing by dλ is given by dθ=mdλdcosθ .

To determine

The resolving power is given as

  R=λΔλ=mN

Expert Solution
Check Mark

Explanation of Solution

Given:

The angular separation of the mth order maximum for two nearly equal wavelengths differing by dλ is given by

  dθ=mdλdcosθ ....... (6)

The angular separation between the intensity maximum and minimum for some wavelength is

  dθ=λNdcosθ   ........(7)

Formula Used:

The resolving power of a grating is given by

  R=λdλ

Calculation:

Equate equation (7) and equation (8).

  mdλdcosθ=λNdcosθ

Rearrange the above equation.

  λdλ=mN

Conclusion:

Thus,the resolving power is given as λdλ=mN

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Chapter 33 Solutions

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