Diffraction - Multiple Choice Questions

Q1

Monochromatic light of wavelength 590 nm is incident normally on a plane diffraction grating having 4 × 10⁵ lines m⁻¹ . An interference pattern is produced.

What is the highest order visible in this interference pattern?

A       2
B       3
C       4
D       5

Q2

Light of wavelength λ is incident normally on a diffraction grating of slit separation 4λ.

What is the angle between the second order maximum and third order maximum?

A       14.5°
B       18.6°
C       48.6°
D       71.4°

 

Q3.

Monochromatic light of wavelength 490 nm falls normally on a diffraction grating that has 6 × 10⁵ lines per metre.

Which one of the following is correct?

A	The first order is observed at angle of diffraction of 17°.
B	The second order is observed at angle of diffraction of 34°.
C	The third and higher orders are not produced.
D	A grating with more lines per metre could produce more orders.

 

Q4.

Light of wavelength λ is incident normally on a diffraction grating for which adjacent lines are a distance 3λ apart. What is the angle between the second order maximum and the straight-through position?

A       9.6°
B       20°
C       42°
D       There is no second order maximum.

 

Q5.

The diagram above shows the first four diffraction orders each side of the zero order when a beam of monochromatic light is incident normally on a diffraction grating of slit separation d.

All the angles of diffraction are small.

The grating is then exchanged for one with a slit separation ^d/₂

Select the diffraction orders now observed from the patterns, A to D, drawn below. The diagrams are drawn on the same scale as the graphic above.

A       
B       
C       
D       

 

Q6.

A light source emits light which is a mixture of two wavelength, λ₁ and λ₂.

When the light is incident on a diffraction grating it is found that the fifth order of light of wavelength λ₁ occurs at the same angle as the fourth order for light of wavelength λ₂.

If λ₁ is 480 nm what is λ₂?

 

A	400 nm
B	480 nm
C	600 nm
D	750 nm

 

Q7.

A diffraction pattern is formed by passing monochromatic light through a single slit. If the width of the single slit is reduced, which of the following is true?

	Width of central maximum	Intensity of central maximum
A	unchanged	decreases
B	increases	increases
C	increases	decreases
D	decreases	decreases

 

Q8. Light of wavelength λ passes through a diffraction grating with slit spacing d. A series of lines (fringe pattern) is observed on a screen.

What is the angle α between the two first order lines?

A	sin-1( λ/2d )
B	sin-1( λ/d )
C	2sin-1( λ/2d )
D	2sin-1( λ/d )

 

Q9.

A diffraction grating experiment is set up using yellow light of wavelength 600nm.

The grating has a slit separation of 2.00 μm.

What is the angular separation (θ₂ – θ₁) between the first and second order maxima of the yellow light?

A	17.5°
B	19.4°
C	36.9°
D	54.3°

 

Q10.

A wave is diffracted as it passes through an opening in a barrier.

The amount of diffraction that the wave undergoes depends on both the:

A	amplitude and frequency of the incident wave.
B	wavelength and amplitude of the incident wave.
C	wavelength of the incident wave and the size of the opening.
D	amplitude of the incident wave and the size of the opening.

 

Q11.

Which of the following provides evidence that light has a wave nature?

A	The emission of light from an energy-level transition in a hydrogen atom.
B	The diffraction of light passing through a narrow opening.
C	The absorption of ultra-violet radiation in the photoelectric effect.
D	The reflection of light from a mirror