Longitudinal & Transverse Waves (AQA AS Physics)

Sound travels with a speed of 330 m s^–1 in air.

The variation of displacement with time of an air particle due to a passing sound wave is shown below.

Which of the following statements about the wave is correct?

The graph shows two light waves travelling at the same frequency.

Which of the following is the phase difference in radians between the two waves?

A water wave is travelling at 36 m s^–1 with a frequency of 20 Hz.

What is the phase difference, in radians, between two points 2.7 m apart?

A progressive wave oscillates at a frequency of 40 Hz.

Two points separated by 0.25 m differ in phase by  radians.

What is the minimum speed of the wave?

Which statement about polarisers is correct?

The diagram shows a wave moving along a rope under tension in the direction shown.

Which of the following graphs, A to D, correctly shows how the variation of displacement s with time t of the particle K in the rope?

What is the frequency, amplitude and period of the wave shown in the graph below, to 2 significant figures?

Which statement about polarisation is incorrect?

Which statement is incorrect about the properties of an unpolarised electromagnetic wave as it passes through a polariser?

The diagram shows a snapshot of a progressive wave travelling from left to right.

At the instant shown, point R is at positive maximum displacement, point S is at zero displacement and point T is at negative maximum displacement.

Which one of the following diagrams A to D correctly shows the positions of points R, S and T after a quarter of a time period has passed?

Speaker J produces pure tone soundwaves of frequency 3000 Hz. Speaker K produces pure tone soundwaves of the same frequency, and is placed 56 cm in front of speaker J.

What is the phase difference between the two waves measured at point L, 1 m in front of speaker K?

Sound waves travel in air at a speed of 340 m s^–1.

The wavefunction of a wave can be given in the format

y =

where y = the displacement from equilibrium, A = amplitude in m, f = frequency in Hz and t = time in s, x = distance from the origin of the wave in m and λ = wavelength in m, as shown in the image below:

A wave is travelling along a rope with time period 0.5 s and a speed of 2.5 m s^–1.

At t = 3 s and x = 2, y = 0.176 m.

What is the value of y when t = 2 and x = 1

An unpolarised electromagnetic wave passes through 2 polarisers. The second polariser is at a clockwise angle a to the vertical.

When a = 225^o what percentage of the unpolarised light is transmitted through both filters?

A stone is thrown into a pond which produces spreading ripples across the surface. As the wavefronts move away from the stone the intensity drops by 12% for each successive maximum.

If the initial amplitude is 2.3 cm, what will be the amplitude of the fourth ripple?

Cinema 3D glasses have polarising lenses aligned 90^o from each other. The left eye contains a horizontal polariser and the right lens contains a vertical polariser.

A person stands in front of a mirror and closes their left eye.

How do the glasses appear in the mirror?

A submarine is using ultrasound of frequency 50 kHz to measure the height of objects on the seabed. The submarine encounters object X

The phase difference between a signal from the seabed and the returned signal from object X is  radians.

Assuming there is no change of phase when the signals reflect off either the seabed or the object, which of the following heights, A to D, is not a possible height h_x of object X?

The speed of sound in water is 1500 m s^–1.

An electromagnetic wave of wavelength 460 nm travels across a boundary between two materials. The speed of the wave in the first material is 2.89 × 10⁸ m s^–1.

The second material is denser than the first, with a refractive index, n, of 1.17. Refractive index is calculated using the equation n =  , where c = the speed of light in a vacuum and c_s = the speed of light in the substance.

Which line, A to D, in the table gives the correct wavelength, frequency and speed of the electromagnetic wave in the second material?

An electromagnetic wave travels in a vacuum at speed c with frequency f and wavelength λ.

The wave enters a transparent material which results in a change of wavelength to . The wave travels a distance, d, in the material. Assume d < λ.

What is the phase difference between the refracted ray and an identical wave which travels parallel but never enters the transparent material?

Two points on a progressive wave have a phase difference of π . The distance between them is 0.45 m, and the frequency of the oscillation is 20 Hz.

What is the speed of the wave?