Test Prep for AP® Courses

Which of the following statements is true about Huygens’s principle of secondary wavelets?

1. It can be used to explain the particle behavior of waves.
2. It states that each point on a wavefront can be considered a new wave source.
3. It can be used to find the velocity of a wave.
4. All of the above.

Superposition of which of the following light waves may produce interference fringes? Select two answers.

Wave₁ = A₁sin(2ωt)

Wave₂ = A₂sin(4ωt)

Wave₃ = A₃sin(2ωt + θ)

Wave₄ = A₄sin(4ωt + θ).

1. Wave₁ and Wave₂
2. Wave₂ and Wave₄
3. Wave₃ and Wave₁
4. Wave₄ and Wave₃

In a double slit experiment, a student measures the maximum and minimum intensities when two waves with equal amplitudes are used. The student then doubles the amplitudes of the two waves and performs the measurements again. Which of the following will remain unchanged?

1. The intensity of the bright fringe
2. The intensity of the dark fringe
3. The difference in the intensities of consecutive bright and dark fringes
4. None of the above

What will be the amplitude of the central fringe if the amplitudes of the two waves in a double slit experiment are a and 3a?

1. 2a
2. 4a
3. 8a²
4. 16a²

Which of the following cannot be a possible outcome of passing white light through several evenly spaced parallel slits?

1. The central maximum will be white but the higher-order maxima will disperse into a rainbow of colors.
2. The central maximum and higher-order maxima will be of equal widths.
3. The lower wavelength components of light will have less diffraction compared to higher wavelength components for all maxima except the central one.
4. None of the above.

A diffraction pattern is formed on a screen when light of wavelength 410 nm is passed through a single slit of width 1 μm. If the source light is replaced by another light of wavelength 700 nm, what should be the width of the slit so that the new light produces a pattern with the same spacing?

1. 0.6 μm
2. 1 μm
3. 1.4 μm
4. 1.7 μm

What is the relationship between the width (W) of the central diffraction maximum formed through a circular aperture and the size (S) of the aperture?

1. W increases as S increases.
2. W decreases as S increases.
3. W can increase or decrease as S decreases.
4. W can neither increase nor decrease as S decreases.

Which of the following best describes the cause of thin film interference?

1. Light reflecting from a medium having an index of refraction less than that of the medium in which it is traveling.
2. Light reflecting from a medium having an index of refraction greater than that of the medium in which it is traveling.
3. Light changing its wavelength and speed after reflection.
4. Light reflecting from the top and bottom surfaces of a film.

Which of the following statements is true for the direction of polarization for a polarized light wave?

1. It is parallel to the direction of propagation and perpendicular to the direction of the electric field.
2. It is perpendicular to the direction of propagation and parallel to the direction of the electric field.
3. It is parallel to the directions of propagation and the electric field.
4. It is perpendicular to the directions of propagation and the electric field.