Syllabus Edition

First teaching 2023

First exams 2025

Wave Phenomena (HL IB Physics)

Exam Questions

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Wave Phenomena

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Wave Phenomena

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1 mark

Wavefront diagrams can be used to indicate the frequency of waves.

Which wave has the lowest frequency?

4-3-q1-sl-easy-mcq-phy

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1 mark

Which of the following statements is the correct description of a ray?

The net displacement of a medium when two waves meet
A line that joins all the points on a wave that have the same phase
A line that indicates the direction of energy propagation
A line that indicates the plane of the oscillation of the electric field

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1 mark

Which statement correctly describes the principal of superposition?

When two waves meet the resultant polarisation will be the sum of the individual polarisations
When two waves meet the resultant wavelength will be the sum of the individual wavelengths
When two waves meet the resultant intensity will be the sum of the individual intensities
When two waves meet the resultant displacement will be the sum of the individual displacements

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1 mark

When two similar waves meet they superpose.

What is the correct resultant displacement for the superposition of the following waves?

4-3-q6-image-sl-easy-mcq-phy

4-3-q6-sl-easy-mcq-phy

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1 mark

Which phrase correctly completes the following sentence?

In a ray diagram showing reflection, the angle of incidence is the angle between

the incident ray and the boundary surface.
the incident ray and the normal.
the incident ray and the reflected ray.
the reflected ray and the boundary surface.

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1 mark

Which property of a wave does not change as a result of refraction?

Frequency, f
Wavelength, λ
Wave speed in the medium, v
Amplitude, A

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1 mark

Ray diagrams can be used to show the reflection, refraction and transmission of light at the boundary between media.

4-4-q3-sl-easy-mcq-phy

In the diagram, what feature does X represent?

Reflected ray
Refracted ray
Transmitted ray
Incident ray

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1 mark

A monochromatic laser beam is shone into the surface of a tank filled with water. The effects on the laser beam due to the water are observed.

How will the properties of the light be affected by the water?

	speed	wavelength	frequency
A	no change	increases	decreases
B	decreases	decreases	no change
C	increases	decreases	no change
D	decreases	no change	increases

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1 mark

Which image shows the correct ray diagram for light passing from air into water?

4-4-q6-sl-easy-mcq-phy

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1 mark

The diagram shows a wave approaching an aperture.

4-4-q7-1-sl-easy-mcq-phy

Which diagram correctly shows the resulting diffraction pattern for the wave?

4-4-q7-sl-easy-mcq-phy

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1 mark

Which row correctly describes the conditions for constructive and destructive interference in a double-slit diffraction pattern?

	Constructive	Destructive
A.	Crest + crest	Trough + trough
B.	Crest + trough	Trough + trough
C.	Trough + trough	Crest + crest
D.	Crest + crest	Crest + trough

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1 mark

The diagram shows two waves. One wave is emitted from source s₁ and travels to point P. The other wave is emitted from source s₂ and travels to point P.

4-4-q9-sl-easy-mcq-phy

What is the path difference between the waves?

1λ
1 $\frac{1}{2}$ λ
2λ
2 $\frac{1}{2}$ λ

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1 mark

The double-slit equation describes the relationship between the separation distance of the fringes on the screen, s, the distance between the screen and the slits, D, the separation of the slits, d, and the wavelength, λ, of the light.

s = $\frac{λ D}{d}$

Which line gives the correct units for the quantities?

	s	D	λ	d
A.	m	m	m	m
B.	m⁻¹	m	m s⁻¹	m
C.	m	m s⁻¹	m	m⁻¹
D.	m²	m⁻¹	m	m

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1 mark

When does diffraction occur?

In all waves
In soundwaves only
In transverse waves only
In light waves only

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1 mark

Light incident on a single slit creates a diffraction pattern on a screen a certain distance away.

What is the definition of a single slit diffraction pattern?

A single slit diffraction pattern is represented as dark fringes of light on the screen separated by coloured strips that show areas of constructive and destructive interference.
A single slit diffraction pattern is represented as a single white band of light in the centre of the screen with black surrounding it.
A single slit diffraction pattern is represented as a series of light and dark fringes which show the areas of maximum and minimum intensity.
A single slit diffraction pattern is represented as a series of wide and narrow strips of light which show the areas of constructive and destructive interference.

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1 mark

When white light is diffracted through a single slit which colour appears closest to the central maximum when viewed on a screen?

Violet
Blue
Red
Green

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1 mark

Light of different wavelengths is incident on a single slit. A diffraction pattern is created on a screen a distance away.

What is the relationship between the wavelength of the light and the width of the bright fringe on the diffraction pattern?

Blue light produces a diffraction pattern with the widest fringes
Red light produces a diffraction pattern with the widest fringes
All wavelengths of light produce bright fringes of equal width
Changing the width of the slit is the only variable that affects the width of the bright fringes

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1 mark

Monochromatic light is incident on a narrow slit and a diffraction pattern of bright and dark fringes is observed on a screen some distance away.

How does making the single slit narrower affect the spacing of the bright fringes on the screen?

The fringe spacing increases with diffraction angle away from the central maximum
The fringe spacing is narrower
The fringe spacing is wider
It has no effect

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1 mark

What is the equation for the angle of diffraction of the first minima for light diffracted through a single slit that creates a diffraction pattern onto a screen?

$θ = \frac{λ}{b}$
$n λ = d \sin θ$
$s = \frac{λ D}{d}$
$θ = \frac{s}{d}$

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1 mark

Light of the same wavelength is incident on a single slit. The width of the slit is changed. A diffraction pattern for each slit width is observed on a screen some distance away.

Which diffraction pattern represents that of the narrowest slit?

9-2-ib-hl-emcq6-q

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1 mark

Monochromatic light of different wavelengths is incident on a single slit. An interference pattern is observed on a screen some distance away.

Which interference pattern represents the longest wavelength of light?

9-2-ib-hl-emcq7-q

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1 mark

Monochromatic light is incident on a single slit and the interference pattern is observed on a screen some distance away.

What is the expression for the path difference between two rays that interfere destructively at a point P on the screen?

$\frac{n λ}{2}$
$n λ$
$d \sin θ$
$\frac{λ D}{d}$

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1 mark

Monochromatic light is incident on a single slit with a diffraction pattern created on a screen some distance away.

What small angle approximation is used in obtaining the equation $θ = \frac{λ}{b}$ to calculate the angle of diffraction of the first minimum of the single slit diffraction pattern?

tanθ ≈ sinθ
sinθ ≈ θ
tanθ ≈ θ
cosθ ≈ θ

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1 mark

Monochromatic light is incident on a single slit and an intensity pattern is observed on a screen some distance away.

How does the intensity pattern change when the single slit and the screen are moved further apart?

Fringe intensity is decreased
Fringe intensity is increased
Fringe width is decreased
Fringe width is increased

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1 mark

When light from two sources produces an observable interference pattern it is necessary that:

The light emitted from the sources is monochromatic
The light emitted from the sources is in phase
The light emitted from each source is of the same intensity
The light from both sources is coherent

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1 mark

Monochromatic light of wavelength λ is incident on a double slit of width d and the diffraction pattern is observed on the screen some distance D away.

What is the equation used to calculate the fringe spacing s observed on the screen?

$θ = 1.22 \frac{λ}{b}$
$s = \frac{λ D}{d}$
$n λ = d \sin θ$
$θ = \frac{λ}{b}$

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1 mark

Which of the following is a safety consideration whilst using lasers in a laboratory?

Only one laser can be used at a time to avoid overheating
Lasers must be of class 4 strength or below
Lasers must only be used in a room with a blackout blinds
Lasers must not be shone into anyone's eyes

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1 mark

Monochromatic light is incident on a double slit which produces a diffraction pattern on a screen some distance away.

How is the brightness of each of the fringes related?

The fringes increase in brightness by a factor of two as the interference pattern moves further away from the central maximum
The bright fringes become dimmer by a factor of $\frac{1}{s l i t w i d t h}$ as the interference pattern moves further away from the maximum
The central maximum is brighter than the subsequent maxima by a factor of two
Each fringe has equal brightness and therefore equal intensity

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1 mark

Light from a single source passes first through a single slit and then through a double slit. A diffraction pattern is observed on the screen and a resulting interference pattern is obtained. This interference pattern has been modulated.

What is modulation?

An interference pattern created from a combination of interference through both a double slit and a single slit.
An interference pattern that contains both constructive and destructive interference
A change in frequency of the incident light on the single and double slits
The phase difference that is calculated from the interference pattern at the first minimum

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1 mark

Monochromatic light incident on a diffraction grating creates both primary and secondary maxima in the diffraction pattern.

What is the relationship between the number of slits in the diffraction grating, when the number of slits is less than 20, and the number of secondary maxima that can be observed on the screen?

The number of primary and secondary maxima in each diffraction pattern is the same
The number of secondary maxima in the diffraction pattern is always one less than the number of primary maxima.
The number of secondary maxima in the diffraction pattern is always the same as the number of slits in the diffraction grating
The number of secondary maxima between the primary maxima is always two less than the number of slits in the diffraction grating

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1 mark

What is a diffraction grating?

Two slits created as two gaps within a material through which waves can be diffracted
A plate consisting of a very large number of parallel, identical, closely-spaced slits
A circular aperture through which light can be diffracted and then images resolved
A photographic filter that allows light in only one plane to pass through

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1 mark

What is the equation used to calculate the angular separation between the order of maxima for a diffraction grating?

$θ = \frac{λ}{b}$
$s = \frac{λ D}{d}$
$v = f λ$
$n λ = d \sin θ$

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1 mark

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

4-3-ib-sl-hard-mcqs-q3-question-diagram-1

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

4-3-ib-sl-hard-mcqs-q3-question-diagram-2

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1 mark

Two waves from individual point sources meet at a point X. Which of the following conditions is necessary for interference to be observed at point X?

Waves of equal amplitude
Waves of equal wavelength
A constant phase difference between the waves
The waves must be electromagnetic

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1 mark

This diagram below shows two apertures through which planar waves are passed as they are moving to the left. The wavefronts show crests moving in phase. Given this information, at which point will the amplitude of the waves be a minimum?

q12_wave-behaviour_ib-sl-physics-mcq

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1 mark

A flat plate made of glass has a refractive index of n = 1.52. What is the speed of light within this material?

1.36 × 10⁸ m s^–1
1.67 × 10⁸ m s^–1
1.97 × 10⁸ m s^–1
2.66 × 10⁸ m s^–1

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1 mark

When a light ray enters a denser medium and refracts, some of the characteristics of the wave will change. Which of the following options is correct about this change?

	Speed	Frequency	Wavelength
A	Increases	Decreases	Stays constant
B	Decreases	Stays constant	Decreases
C	Stays constant	Decreases	Increases
D	Increases	Increases	Stays constant

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1 mark

The effect of a double slit on monochromatic light is observed by the set up in the diagram below.

4-4-sl-mcq-hard-q10-phy

Interference fringes are seen on the screen.

Which of the following changes would increase the distance between the adjacent fringes?

Decrease the width of all the slits
Move the screen closer to the double-slit
Use light of a higher frequency
Decrease the distance between the two slits

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1 mark

Which of the following options will alter the frequency of a wave?

Reflection
Refraction
Diffraction
None of the above

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1 mark

Young’s double-slit experiment is setup as shown, including a monochromatic source, a single slit, a double slit and a screen. What is the purpose of the single slit in this experiment?

q17_wave-behaviour_ib-sl-physics-mcq

To make sure there is equal intensity in the double-slits
To make sure the light is coherent upon the double-slits
To decrease intensity for the double-slits
To reduce the wavelength of the light

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1 mark

Identical waves that begin propagation at the same time leave from two different sources and arrive at the same point – point X. The first source is 18 m from point X. The second source is 10.5 m from point X. The waves of both sources have a wavelength of 3 m. What is observed at X?

Complete destructive interference
Partial destructive interference
Partial constructive interference
Complete constructive interference

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1 mark

Which of the following images shown below best represents the path of visible light traveling through a glass prism?

q19_wave-behaviour_ib-sl-physics-mcq

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1 mark

The angle of incidence should always be measured between:

The normal and the reflected ray
The incident ray and the normal
The incident ray and the reflected ray
The incident ray and the surface of the second medium

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1 mark

In two separate experiments, monochromatic light is incident on a single slit. The diagrams show the interference patterns obtained on a screen far from the slit. In diagram 1, the wavelength of light is λ₁ and the slit width is b₁. In diagram 2, the wavelength of light is λ₂ and the slit width is b₂.

$9-2-hl-mcq-1-medium-diffraction-patterns$

What is the correct expression linking wavelength and slit width of the two interference patterns?

λ₂ < λ₁
b₂ < b₁
$\frac{λ_{1}}{b_{1}} > \frac{λ_{2}}{b_{2}}$
_{$\frac{λ_{1}}{b_{1}} < \frac{λ_{2}}{b_{2}}$}

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1 mark

Which of the statements are true for single-slit interference?

Blue light produces a larger angle of diffraction than red light
The smaller the slit width, the larger the angle of diffraction for a constant wavelength

Neither
I only
II only
Both

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1 mark

Four diffraction experiments are performed using diffraction gratings with different numbers of slits.

9-2-hl-mcq-medium-q3-ans-options-1

Which row in the table below correctly matches the number of slits and the intensity pattern observed on the screen?

	Experiment 1	Experiment 2	Experiment 3	Experiment 4
A.	5-slit diffraction grating	Single Slit	Double Slit	10-slit diffraction grating
B.	10-slit diffraction grating	Single Slit	Double Slit	5-slit diffraction grating
C.	10-slit diffraction grating	Double Slit	Single Slit	5-slit diffraction grating
D.	5-slit diffraction grating	Double Slit	Single Slit	10-slit diffraction grating

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1 mark

Monochromatic light is incident on a narrow rectangular slit in an optical experiment. The diffracted light is observed on a distant screen. The graph below shows how the intensity of light varies with position on the screen.

9-2-hl-mcq4-medium-q4-diag

The width of the slit is increased. The original diffraction pattern is shown by the solid line.

Which graph shows how the intensity of light observed varies with position on the screen?

9-2-hl-mcq4-medium-ans-options

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1 mark

The diagram shows the diffraction pattern for light travelling through a single slit of width 2.0 mm.

9-2-hl-mcq5-medium-diag

What is the wavelength of the light used?

2.0 cm
2.0 mm
20 μm
20 nm

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1 mark

White light is diffracted through a single slit.

Which row in the table indicates the correct positions of red (R), violet (V) and white (W) light on the intensity pattern seen on a screen?

9-2-hl-mcq6-medium-medium-ans-table

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1 mark

A single slit diffraction pattern is performed several times using light of different colours, slits of different widths and different distances to the screen. Which change will decrease the width of the central peak?

Change the light source from red to blue
Change the light source from blue to red
Make the slit width narrower
Move the screen further away

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1 mark

A parallel beam of coherent light of wavelength λ is incident on a rectangular slit of width b. After passing through the slit the light is incident on a screen a distance D from the slit where D is much greater than b.

What is the width of the central maximum of the diffraction pattern as measured on the screen?

$\frac{b}{D λ}$
$\frac{D λ}{b}$
$\frac{2 b}{D λ}$
$\frac{2 λ D}{b}$

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1 mark

In a diffraction experiment with a single slit, the first minimum is observed at a diffraction angle θ. The intensity of the central maximum of the diffraction pattern is I. The light source stays the same. What is the effect on I and θ of reducing the slit width?

	θ	I
A.	decreases	increases
B.	increases	decreases
C.	decreases	decreases
D.	increases	increases

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1 mark

A single slit produces a diffraction pattern. The angle from the centre of the pattern to the first minimum point is Y. The slit width is then halved and the frequency of light is doubled.

What is the new angle from the centre of the pattern to the first minimum point?

4Y
$\frac{1}{2}$ Y
Y
$\frac{1}{4}$ Y

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1 mark

Waves emitted from sources V and W are initially in phase and have equal wavelengths. Point A is not equidistant between V and W. The waves interfere destructively at point A, where the path difference is 0.30 m.

9-3-ib-hl-mcq1-medium-q

What is the maximum possible value of the wavelength of the waves?

0.60 m
0.30 m
0.20 m
0.12 m

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1 mark

The diagram below shows an arrangement for a two-slit interference experiment. Coherent light of frequency f is incident on two narrow parallel slits S₁ and S₂. An interference pattern is observed on a screen a distance away. The central bright fringe is at O and the next bright fringe is at P. The speed of light is c.

9-3-ib-hl-mcq2-medium-q

The distance S₂P – S₁P is equal to

$\frac{f}{c}$
$\frac{c}{2 f}$
$\frac{c}{f}$
$\frac{f}{2 c}$

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1 mark

The interference of light waves is observed using a double-slit arrangement as shown below.

9-3-ib-hl-mcq-medium-q3

Which of the following best shows the intensity distribution of light at point O on the screen?

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1 mark

In an experiment, light incident on a diffraction grating has a first maximum of the second order in the same location as the first minimum of a single slit diffraction pattern. The light source and the distance from the slits to the screen are kept the same.

What is the relationship between the slit separation d and the slit width b?

d = 2b
d = $\frac{b}{4}$
d = 4b
d = $\frac{b}{2}$

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1 mark

The graph shows the intensity pattern from the interference of monochromatic light passing through N slits.

Which row gives the correct value of N and the correct relationship between the slit separation d and the wavelength λ?

	N	Relationship
A.	6	d = $\frac{λ}{2}$
B.	6	d = 2λ
C.	4	d = 2λ
D.	4	d = $\frac{λ}{2}$

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1 mark

Green light is incident on a diffraction grating, a double-slit and a single-slit. The patterns produced on a screen some distance away are shown below. 9-3-ib-hl-mcq7-q

Which row in the table correctly identifies patterns p, q and r?

	p	q	r
A.	Diffraction Grating	Double Slit	Single Slit
B.	Double Slit	Single Slit	Diffraction Grating
C.	Single Slit	Double Slit	Diffraction Grating
D.	Diffraction Grating	Single Slit	Double Slit

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1 mark

The graph shows the variation with diffraction angle of the intensity of light when monochromatic light is incident on a diffraction grating.

9-3-ib-hl-mcq9-q

The number of slits is reduced to less than 20. The width and the separation of the slits remain the same.

Three possible changes to the pattern are:

I. The intensity of the primary maxima increases

II. The width of the primary maxima increases

III. Secondary maxima are seen between the primary maxima

Which of the possible changes are correct?

I and II only
I and III only
II and III only
I, II and III only

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1 mark

A beam of monochromatic light is incident normally on a double slit. The slit spacing is d. The angles between the different orders are shown on the diagram.

9-3-ib-hl-mcq10-medium-q

What is the expression for the wavelength of light used?

λ = sD
λ = sθ
λ = θD
λ = θd

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1 mark

A ripple tank is used to demonstrate the movement of progressive waves. In the tank, a wave is set in motion from left to right.

The wave is shown at time t = 0. Points X and Y on the wave have been marked.

q11_wave-characteristics_ib-sl-physics-mcq

Which option correctly shows the displacement-time graphs for both X and Y?

q11-2_wave-characteristics_ib-sl-physics-mcq

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1 mark

Two pulses are travelling towards each other.

q13_wave-characteristics_ib-sl-physics-mcq

What is a possible shape observed when the pulses undergo superposition?

q13-2_wave-characteristics_ib-sl-physics-mcq

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1 mark

In a Young’s double-slit experiment, the spacing of the double slits is d and the distance between the slits and the screen on which fringes are formed is D. When monochromatic light of wavelength λ is incident on the slits the distance between adjacent fringes on the screen is s.

Which row shows another arrangement that produces a fringe spacing of s?

	Wavelength of the light	Distance between the slits and the screen	Spacing of double Slits
A.	$4 λ$	2D	4d
B.	$2 λ$	2D	2d
C.	$4 λ$	2D	2d
D.	$4 λ$	2D	8d

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1 mark

K is the source of a wave of frequency 25 Hz.

4-4-sl-mcq-hard-q2-phy

The wave travels to point M by two routes, K → L → M and K → M. The speed of the wave is 15 m s⁻¹.

What is the path difference between the two waves at M in terms of the wavelength λ of the waves?

4λ
6.6λ
31.6λ
2.4λ

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1 mark

The diagram below shows an arrangement used to investigate double slit interference using microwaves.

q25_interference_aqa-as-physics-mcq

The diagram below shows the view from above.

q25-2_interference_aqa-as-physics-mcq

The microwaves from the transmitter are polarised. These waves are detected by the aerial in the microwave detector (probe). The aerial is a vertical metal rod.

The detector is moved along the dotted line UY. As it is moved, maximum and minimum signals are detected. Maximum signals are first detected at points V and W. The next maximum signal is detected at the position X.

The distances between each of the two slits, S₁ and S₂ and the microwave receiver when the aerial is in position X are S₁X = 0.3335 m and S₂X = 0.3615 m

Select the three correct reasons that explain why the signal strength falls to a minimum between U and V, and between V and W.

	Reason 1	Reason 2	Reason 3
A	Waves are out of phase	Creating the path difference	Constructive interference occurs
B	Waves are out of phase	Creating the path difference	Destructive interference occurs
C	Waves have a path difference	Path difference is a half-integer number of wavelengths	Destructive interference occurs
D	Waves have a path difference	Path difference is a half-integer number of wavelengths	Constructive interference occurs

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1 mark

A sound source X₁ is positioned w cm to the left of sound source X₂. Both sound sources are y m below the detection line AB. AB runs parallel to X₁X₂ . When a sound detector is slowly moved along the line AB, a maxima is first detected at P, followed by a minima at Q, with another maxima at R and a minima at S. PQRS are all equidistant apart with X₁ S = X₂ S.

Which one of the following is a correct expression for the wavelength of the sound?

X₁Q - X₁P
X₁R - X₁Q
X₁Q - X₂Q
X₁R - X₂R

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1 mark

A ray of light is incident on a material made from three layers, each having a different optical density, so that in each layer the light travels at a different speed.

For layer 1: refractive index = n₁and the speed of light = c₁
For layer 2: refractive index = n₂and the speed of light = c₂
For layer 3: refractive index = n₃and the speed of light = c₃
Angle of incidence = i
Angle of refraction = r

This is illustrated in the diagram below:

4-4-sl-mcq-hard-q6-phy

Which is the correct expression for c₃, the speed of light in the third layer?

$\frac{c_{1} n_{1}}{n_{3}}$
$\frac{c_{2} n_{2}}{c_{3}}$
$\frac{c_{1} n_{1}}{n_{2}}$
$\frac{c_{2} n_{2}}{s i n (r_{3})}$

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1 mark

Diamonds are highly valued because of their sparkle. This is caused by total internal reflection, which reflects most of the light that falls onto a cut diamond out of the face we see. Fake gems, called ‘paste’, are often used in jewellery because they are cheaper. However, paste gems sparkle much less than real diamonds.

The diagrams show a possible path of light through a real diamond, and another through a fake.

$q28_refraction_aqa-as-physics-mcq$

Which row in the table contains only statements which must be true?

	*critical angle of diamond*	$\frac{n_{d}}{n_{f}}$	*v_d*
A	Very small	> 1	< v_f
B	Very small	< 1	> v_f
C	Very large	> 1	< v_f
D	Very large	< 1	> v_f

Where:

n = refractive index;
- n_dis the refractive index of the diamond
- n_f is the refractive index of the fake
v = speed of light
- v_dis the speed of light in the diamond
- v_f is the speed of light in the fake

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1 mark

A double slit interference experiment is conducted using monochromatic light of wavelength λ. The centre of the observed pattern is a bright fringe.

4-4-sl-mcq-hard-q8-phy

What is the path difference between two waves which interfere to give the second dark fringe from the centre?

$λ$
$1.5 λ$
$2.5 λ$
$3.5 λ$

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1 mark

A student is investigating the interference of waves. They set up coherent waves produced at points S and T and travel outwards in all directions.

The line XY is halfway between S and T and perpendicular to the joining line S and T. The distance XY is much greater than the distance ST.

4-4-sl-mcq-hard-q9-phy

Which line or lines would an interference pattern be seen along?

WZ only
XY only
Both XY and WZ
Neither XY or WZ

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1 mark

When moving from material A to material B, the direction of a ray of light moves away from the normal. If n_A and n_B are the refractive indices of materials A and B respectively, then which of the following statements is true in this situation?

The ratio of $\frac{n_{A}}{n_{B}}$ is larger than one
The ratio of $\frac{n_{A}}{n_{B}}$ is less than one
The ratio of $\frac{n_{A}}{n_{B}}$ is exactly than one
The ratio of $\frac{n_{A}}{n_{B}}$ cannot be known without more information

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1 mark

The diffraction pattern for light passing through a single slit is shown on the graph below.

9-2-ib-hl-hmcq1-q9-2-ib-hl-hmcq1-q

What is the $\frac{s l i t w i d t h}{w a v e l e n g t h o f l i g h t}$ ?

0 m
1 × 10⁻² m
2 × 10⁻² m
100

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1 mark

Monochromatic light is incident on two slits that are identical. An interference pattern is produced on a screen some distance away. Upon returning to the experiment a Physicist notices that there are fewer maxima now present on the screen.

What aspect of the equipment set up has been changed?

The screen and slits have been moved further apart
The wavelength of the light used is longer
The wavelength of the light used is shorter
One of the slits has become blocked

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1 mark

When monochromatic light is incident on a single slit a diffraction pattern forms on a screen. The width of the slit is increased.

What are the changes in the width of the central and subsidiary maxima and in the intensity of the central and subsidiary maxima of the single slit diffraction pattern?

	Width of central maximum	Intensity of central maximum	Width of subsidiary maximum	Intensity of subsidiary maximum
A.	decreases	increases	decreases	increases
B.	increases	increases	increases	decreases
C.	decreases	decreases	decreases	increases
D.	increases	increases	decreases	decreases

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1 mark

A beam of photons moving in the direction shown is incident on a rectangular slit of width, b. The angle produced at X by the interference pattern of the photons diffracting through the slit is θ.

What is the component of the energy of the photons at point X on the screen?

$E = \frac{θ b}{h c}$
$E = θ b$
$E = \frac{h c}{θ b}$
$E = \frac{θ b}{c}$

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1 mark

A beam of light of wavelength λ is incident upon a single slit of width w. After passing through the slit, the light is incident on a screen at a distance Q from the slit.

Which of the following changes, carried out separately, will result in an increased width of the central maxima observed on the screen?

	λ	w	Q
A.	increase	increase	increase
B.	decrease	increase	decrease
C.	decrease	decrease	decrease
D.	increase	decrease	increase

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1 mark

A parallel beam of coherent light of wavelength p nm is incident on a rectangular slit of width p µm. After passing through the slit the light is incident on a screen a distance p m away.

What is the width of the central maximum of the diffraction pattern as measured on the screen?

p × 10⁻⁶
p² × 10⁻³
2p² × 10⁻³
2p²

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1 mark

A parallel beam of light of wavelength 400 nm is incident normally on a slit of width b. The distance between the slit and the screen is 0.2 m and the distance of the second order of maximum from the centre of the screen is 10 mm.

9-2-ib-hl-hmcq7-q

What is the width of the slit?

1 × 10⁻⁴ m
1 × 10⁻² m
0.1 m
1 m

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1 mark

A parallel beam of light of wavelength λ passes through a slit of width b. The transmitted light is collected on a screen D m away where D ≫ b.

What is the distance between the two second-order minima?

$\frac{D λ}{2 b}$
$\frac{2 D λ}{b}$
$\frac{4 D λ}{b}$
$\frac{8 D λ}{b}$

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1 mark

Radiation is incident on a single rectangular slit. The diffracted beam that emerges from the slit is incident on a screen. Both the slit width and the wavelength of the radiation are tripled. The intensity of the radiation remains the same.

Which answer option correctly describes the total number of photons incident every second on the screen and the angular width of the central maximum of the diffracted beam?

	Number of photons incident every second	Angular width of the central maximum
A	tripled	unchanged
B	a third	unchanged
C	unchanged	tripled
D	tripled	a third

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1 mark

A monochromatic source of light of wavelength λ is incident on a single slit of width b. The interference pattern is visible on the screen where the angle of the third minima is θ.

What is the wavelength of the light?

$\frac{b θ}{6}$
$\frac{b θ}{3}$
$\frac{b θ}{2}$
$b θ$

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1 mark

Monochromatic light of wavelength λ is incident on a double slit. The resulting interference pattern is observed on a screen a distance p from the slits. The distance between consecutive fringes in the pattern is 21 mm when the slit separation is q.

λ and q are tripled and p is doubled.

What is the new distance between consecutive fringes?

7 mm
21 mm
42 mm
63 mm

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1 mark

The figure below shows a spectrometer that uses a diffraction grating to split a beam of light into its constituent wavelengths and enables the angles of the diffracted beams to be measured.

$q21_diffraction_aqa-as-physics-mcq$

Light with a particular wavelength is passed through the diffraction grating. The angle of diffraction θ at the centre of the first observed beam at Z in the image above is 63.0⁰ and the grating has 1562 lines per mm.

A dark fringe is observed at position W, with the central maximum at the straight-through position.

How many orders of maxima of this light are present at this wavelength?

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1 mark

A diffraction grating is illuminated normally with light of wavelength 5.5 x 10^-7m.

When a screen is 1.2 m from the grating, the distance between the zero and first-order maxima on the screen is 0.40 m.

$q25_diffraction_aqa-as-physics-mcq$

What is the number of lines per mm of the diffraction grating?

1.7 x 10^-6
3.5 x 10¹⁰
588
588 x 10³

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1 mark

A Physicist carried out Young's double slit experiment using a monochromatic beam. The diagram shows the equipment set-up and the pattern produced with a ruler next to it.

q22-interference-aqa-as-physics-mcq

What is the wavelength of the monochromatic beam?

0.03 nm
3 nm
6 µm
9 µm

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1 mark

White light is passed through a double slit and an interference pattern is observed on a screen 2.0 m away. The separation between the slits is 0.5 mm. The first violet and red fringes are formed 2.0 mm and 3.0 mm respectively away from the central white fringe.

What are the wavelengths of the violet and red light?

Violet light wavelength = 0.5 m and red light wavelength = 0.75 m
Violet light wavelength = 500 nm and red light wavelength = 750 nm
Violet light wavelength = 750 nm and red light wavelength = 500 nm
Red light wavelength = 250 nm and violet light wavelength = 250 nm

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