Syllabus Edition

First teaching 2014

Last exams 2024

|

Interference (DP IB Physics: HL)

Topic Questions

3 hours43 questions
1
Sme Calculator
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

Did this page help you?

2
Sme Calculator
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 observed on the screen?

  • theta space equals space 1.22 lambda over b

  • s space equals space fraction numerator lambda D over denominator d end fraction

  • n lambda space equals space d sin theta

  • theta space equals space lambda over b

Did this page help you?

3
Sme Calculator
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

Did this page help you?

4
Sme Calculator
1 mark

Monochromatic light is incident on a double slit which produces an interference 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 diffraction pattern moves further away from the central maximum

  • The bright fringes become dimmer by a factor of fraction numerator 1 over denominator s l i t space w i d t h end fraction as the diffraction 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

Did this page help you?

5
Sme Calculator
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

Did this page help you?

6
Sme Calculator
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

Did this page help you?

7
Sme Calculator
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

Did this page help you?

8
Sme Calculator
1 mark

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

  • theta space equals space lambda over b

  • s space equals space fraction numerator lambda D over denominator d end fraction

  • v space equals space f lambda

  • n lambda space equals space d sin theta

Did this page help you?

9
Sme Calculator
1 mark

A ray of light is incident on a thin film of oil sitting on top of a puddle of water.

The refractive index of air is 1, the refractive index of oil is 1.45 and the refractive index of water is 1.33.

9-3-ib-hl-emcq9-ms

At which boundary is there a phase change in the wave reflected?

    Did this page help you?

    10
    Sme Calculator
    1 mark

    A ray of light incident on the boundary between a less dense to a more dense material undergoes a phase change when reflected. 

    What is the value of this phase change?

    • lambda

    • pi over 2

    • lambda over 2

    • 360 degree

    Did this page help you?

    1
    Sme Calculator
    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

    Did this page help you?

    2
    Sme Calculator
    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

    • f over c

    • fraction numerator c over denominator 2 f end fraction

    • c over f

    • fraction numerator f over denominator 2 c end fraction

    Did this page help you?

    3
    Sme Calculator
    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?

    9-3-ib-hl-mcq3-medium-ans-options

      Did this page help you?

      4
      Sme Calculator
      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 and the slit width b

      • = 2b

      • b over 4

      • = 4b

      • d = b over 2

      Did this page help you?

      5
      Sme Calculator
      1 mark

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

      9-3-ib-hl-mcq-medium-q5-1

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

       

      N

      Relationship

      A.

      6 lambda over 2

      B.

      6 = 2λ

      C.

      4 = 2λ

      D.

      4 lambda over 2

        Did this page help you?

        6
        Sme Calculator
        1 mark

        Monochromatic light of wavelength, 6λ is incident on a thin film of transparent plastic with a refractive index 1.5n. The film is surrounded by air. The intensity of the light observed reflected off the film is a minimum. What is a possible thickness of the plastic? 

        9-3-ib-hl-mcq6-medium-q

        • lambda over n

        • fraction numerator lambda over denominator 3 n end fraction

        • fraction numerator lambda over denominator 2 n end fraction

        • fraction numerator 12 lambda over denominator n end fraction

        Did this page help you?

        7
        Sme Calculator
        1 mark

        Red 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

          Did this page help you?

          8
          Sme Calculator
          1 mark

          Which of the following statements about thin film interference are correct?

          I. A phase change occurs at a boundary between a more dense and a less dense material

          II. A phase change always involves some reflection and transmission

          III. The wavelength of a wave transmitted between materials of different densities stays the same

          IV. Light in a thin film travels a distance of two times the thickness of the film when it enters and leaves the film at the same surface to undergo destructive interference

          • I, II and III

          • I and II only

          • II only

          • IV only

          Did this page help you?

          9
          Sme Calculator
          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

          Did this page help you?

          10
          Sme Calculator
          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 =

          • λ θD

          • λ = θd

          Did this page help you?

          1
          Sme Calculator
          1 mark

          A layer of oil with a refractive index of 1.5 coats the outside of a perspex cover with a refractive index of 1.75. The layer of oil is used to eliminate reflection from the lens at wavelength λ in air.

          What is the phase change at the top of the air-oil interface and at the oil-perspex interface and the minimum thickness of the oil layer?

           

          Phase change air-oil

          Phase change oil-perspex

          Oil thickness

          A.

          π 0 lambda over 4

          B.

          π π lambda over 6

          C.

          π π fraction numerator 2 lambda over denominator 7 end fraction

          D.

          0 0 lambda over 4

            Did this page help you?

            2
            Sme Calculator
            1 mark

            Monochromatic light of wavelength λ is incident on a double slit. The resulting interference pattern is observed on a screen a distance 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 is doubled. 

            What is the new distance between consecutive fringes?

            • 7 mm

            • 21 mm

            • 42 mm

            • 63 mm

            Did this page help you?

            3
            Sme Calculator
            1 mark

            A transparent plastic forms a parallel-sided thin film in air. A ray X is incident on the upper-air plastic boundary at a normal incidence is shown on the diagram. 

            9-3-ib-hl-hmcq3-q

            Reflections from the top and bottom surface of the film result in three rays P, Q and R. An observer can see a whole spectrum of colours at the point PQR. 

            Which path differences are correct for the minimum thickness of the plastic? 

             

            X - P

            X - Q

            P - R

            A.

            lambda over 2 lambda over 2 0

            B.

            lambda over 2 0 lambda

            C.

            0 lambda over 2 lambda over 2

            D.

            lambda over 2 lambda over 2 lambda

              Did this page help you?

              4
              Sme Calculator
              1 mark

              A ray of light is incident on the boundary between two materials nand n2 where n1 < n2.

              9-3-ib-hl-mcq-q4

              Which diagrams show the correct behaviour of this ray of light at the boundary?

              • All diagrams are correct

              • No diagrams are correct

              • Diagrams 2 and 3 are correct

              • Diagrams 1 and 3 are correct

              Did this page help you?

              5
              Sme Calculator
              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 observed beam at Z in the image above is 45⁰ where sin(45) = fraction numerator square root of 2 over denominator 2 end fraction and the grating has 1000 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?

              • 1

              • 2

              • 3

              • 4

              Did this page help you?

              6
              Sme Calculator
              1 mark

              A diffraction grating is illuminated normally with light of wavelength 5 x 10-7m.

              When a screen is 1 m from the grating, the distance between the zero and first-order maxima on the screen is 0.20 m.

              q25_diffraction_aqa-as-physics-mcq

              You may need to use the following values in your calculation:

              t a n to the power of negative 1 end exponent open parentheses 1 fifth close parentheses space equals space 11 degree

              s i n to the power of negative 1 end exponent open parentheses 1 fifth close parentheses equals 11 degree

              c o s to the power of negative 1 end exponent open parentheses 1 fifth close parentheses space equals space 78 degree

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

              • 100

              • 400

              • 1000

              • 2500

              Did this page help you?

              7
              Sme Calculator
              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

              Did this page help you?

              8
              Sme Calculator
              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-mcqq25-2-interference-aqa-as-physics-mcq

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

              The detector is moved along the dotted line HL. As it is moved, maximum and minimum signals are detected. Maximum signals are first detected at points I and J. The next maximum signal is detected at position K.

              The distances between each of the two slits, S1 and S2 and the microwave receiver when the aerial is in position K are S1K = 0.1115 m and S2K = 0.0315 m

               Which of the following reasons explains why the signal strength falls to a minimum between H and I, and between I and J?

               

              Reason 1

              Reason 2

              Reason 3

              A.

              Waves are out of phase

              Gives rise to a path difference

              Destructive interference occurs

              B.

              Waves are out of phase

              Gives rise to a path difference

              Constructive interference occurs

              C.

              Path difference for the two waves

              Gives rise to a phase difference

              Constructive interference occurs

              D.

              Path difference for the two waves

              Gives rise to a phase difference

              Destructive interference occurs

                Did this page help you?

                9
                Sme Calculator
                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

                Did this page help you?

                10
                Sme Calculator
                1 mark

                A parallel beam of monochromatic light is directed normally at a plane of transmission grating which has N slits per meter.

                The second-order diffracted beam is at an angle θ to the zero-order transmitted beam.

                 q27_diffraction_aqa-as-physics-mcq

                The grating is then replaced by a plane transmission grating which has 5N slits per meter.

                Which one of the following statements is correct?

                • With the second grating, the first order beam is at an angle of θ to the zero-order transmitted beam

                • With the second grating, the second order beam is at an angle θ to the zero-order transmitted beam

                • With the second grating, the second order beam is at an angle of 0.2θ to the zero-order transmitted beam

                • With the first grating, the first order beam is at an angle of 0.2θ to the zero-order transmitted beam

                Did this page help you?