3.7 Diffraction

    Cards (41)

    • What is diffraction?
      Bending of waves
    • Huygens' Principle treats each point on a wavefront as a source of secondary wavelets.

      True
    • Single-slit diffraction creates a pattern with a broad central maximum
    • Arrange the features in a table to compare single-slit and diffraction grating diffraction:
      1️⃣ Number of slits: Single vs. Multiple parallel slits
      2️⃣ Pattern: Broad central maximum vs. Sharp, narrow bright lines
      3️⃣ Intensity: Decreases with fringe order vs. Concentrated at principal maxima
      4️⃣ Uses: Investigating wave behavior vs. Spectroscopy, light filtering
    • Narrower slits or apertures lead to more diffraction of waves.
      True
    • What is Huygens' Principle used to explain?
      Wave front propagation
    • Diffraction is the bending of waves as they encounter obstacles or pass through openings.openings
    • What happens to wave fronts when they encounter an obstacle or opening?
      They spread out
    • Match the diffraction type with its feature:
      Single-Slit Diffraction ↔️ Broad central maximum
      Diffraction Grating Diffraction ↔️ Sharp, narrow bright lines
    • Longer wavelengths experience more diffraction
    • Huygens' Principle treats each point on a wavefront as a source of spherical secondary wavelets.

      True
    • How do secondary wavelets propagate according to Huygens' Principle?
      Spherically
    • Longer wavelengths can bend more around obstacles, leading to more diffraction
    • Longer wavelengths lead to more diffraction
    • In single-slit diffraction, there is only one slit
    • What happens to the intensity in single-slit diffraction as fringe order increases?
      Decreases
    • Longer wavelengths bend more around obstacles.

      True
    • Sound diffracts significantly when the wavelength is much larger than the obstacle size.

      True
    • Match the feature with its corresponding wave type:
      Air, water, solids ↔️ Sound
      Air, vacuum, water ↔️ Light
    • Holography creates 3D images using diffracted light.

      True
    • In Young's Double Slit Experiment, diffraction ensures light covers a wider area
    • Diffraction occurs when waves encounter obstacles or pass through openings
    • What are the two primary types of diffraction?
      Single-slit and diffraction grating
    • Diffraction grating diffraction produces sharp, narrow bright lines called principal maxima.

      True
    • Which wavelength experiences more diffraction: longer or shorter?
      Longer wavelength
    • Longer wavelengths and narrower slits both result in greater diffraction
    • How do wave fronts propagate according to Huygens' Principle?
      Secondary wavelets
    • Huygens' Principle states that each point on a wavefront acts as a source of secondary wavelets.

      True
    • The envelope of secondary wavelets forms the new wave front
    • How many slits are present in single-slit diffraction?
      One
    • Why do narrower slits or apertures lead to more diffraction?
      Less space to propagate
    • In Huygens' Principle, the original wave originates from a primary source
    • Match the diffraction type with its pattern:
      Single-Slit Diffraction ↔️ Broad central maximum
      Diffraction Grating Diffraction ↔️ Sharp, narrow bright lines
    • Narrower slits or apertures cause wavefronts to spread out more, resulting in greater diffraction.

      True
    • Narrower slits result in more diffraction.

      True
    • Diffraction gratings produce sharp, narrow bright lines.

      True
    • Huygens' Principle treats each point on the wavefront as a source of secondary wavelets
    • What determines the degree of sound diffraction?
      Wavelength relative to obstacle size
    • The typical wavelength of sound ranges from 0.017 m to 17 m.
    • Diffraction gratings are used in spectroscopy to separate light into its component wavelengths