• Diffraction is the?spreading out?of waves when they pass an obstruction
  • This obstruction is typically a narrow slit known as an aperture

As waves pass through the aperture, they spread out

• The?frequency?of the diffracted waves is?less?than that of the incident waves, since?energy is distributed over a larger area

• The extent of diffraction depends on the width of the gap compared to the wavelength of the wave
  • Diffraction is the most prominent when the width of the slit is approximately?equal?to?or smaller?than the wavelength
  • As the gap size increases, the effect gradually gets less pronounced until, in the case that the gap is much larger than the wavelength, the waves are no longer spread out

   

The size of the gap (compared to the wavelength) affects how much the waves spread out

• Any type of wave can be diffracted i.e. sound, light, water
• The only property of a wave that changes when its diffracted is its?amplitude
  • This is because some energy is dissipated when a wave is diffracted through a gap
• Diffraction can also occur when waves curve around an edge:

When a wave goes past the edge of a barrier, the waves can curve around it

Step 1: Optimal diffraction happens when the wavelength of the waves is comparable to (or larger than) the size of the gap?

λ?= 10 cm = 0.1 m

Step 2: Write down the wave equation?

c = fλ

• • where?c?= 340 m s^–1

Step 3: Rearrange the above equation for the frequency?f

Step 4: Substitute the numbers into the above equation?

f?= 3400 Hz

The frequencies of sound that are best diffracted through the gap are:

f?≤ 3400 Hz

ANSWER:? ?D

• Diffraction is most prominent when the wavelength is close to the aperture size

Consider option?A:

• UV waves have a wavelength between (4 × 10^–7) and (1 × 10^–8) m so would?not?be diffracted by a gate post
  • Radio waves, microwaves or sound waves would be more likely to be diffracted at this scale

Consider option?B:

• Sound waves have a wavelength of (1.72 × 10^–2) to 17 m so would?not?be diffracted by the diffraction grating
  • Infrared, light and ultraviolet waves would be more likely to be diffracted at this scale

Consider option?C:

• Radio waves have a wavelength of 0.1 to 10⁶?m so would?not?be diffracted by human hair
  • Infrared, light and ultraviolet waves would be more likely to be diffracted at this scale

Consider option?D:

• X-rays have a wavelength of (1 × 10^–8) to (4 × 10^–13) m
  • This is a suitable estimate for the size of the gap between atoms in a crystalline solid
  • Hence X-rays could be diffracted by a crystalline solid
• Therefore, the correct answer is?D