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UNIVERSITY OF CAMBRIDGE INTERNATIONAL EXAMINATIONS International General Certificate of Secondary Education * 5 6 3 8 7 4 8 9 6 2 * 0625/32 PHYSICS Paper 3 Extended May/June 2013 1 hour 15 minutes Candidates answer on the Question Paper. No Additional Materials are required. READ THESE INSTRUCTIONS FIRST Write your Centre number, candidate number and name on all the work you hand in. Write in dark blue or black pen. You may use a pencil for any diagrams or graphs. Do not use staples, paper clips, highlighters, glue or correction fluid. DO NOT WRITE IN ANY BARCODES. Answer all questions. Electronic calculators may be used. You may lose marks if you do not show your working or if you do not use appropriate units. Take the weight of 1 kg to be 10 N (i.e. acceleration of free fall = 10 m / s2). At the end of the examination, fasten all your work securely together. The number of marks is given in brackets [ ] at the end of each question or part question. For Examiner’s Use 1 2 3 4 5 6 7 8 9 10 11 Total This document consists of 20 printed pages. DC (SJF/SW) 58287/5 © UCLES 2013 [Turn over
2 1 Fig. 1.1 shows a side view of a large tank in a marine visitor attraction. sea-water viewing panel M tank Fig. 1.1 (not to scale) The tank is 51 m long and 20 m wide. The sea-water in the tank is 11 m deep and has a density of 1030 kg / m3. (a) Calculate the mass of water in the tank. mass = ................................................. [3] (b) The pressure at point M, halfway down the large viewing panel, is 60 kPa more than atmospheric pressure. Calculate the depth of M below the surface of the water. depth = ................................................. [2] © UCLES 2013 0625/32/M/J/13 For Examiner’s Use
3 (c) The viewing panel is 32.8 m wide and 8.3 m high. Calculate the outward force of the water on the panel. Assume that the pressure at M is the average pressure on the whole panel. For Examiner’s Use force = ................................................. [2] [Total: 7] © UCLES 2013 0625/32/M/J/13 [Turn over
4 2 Fig. 2.1 shows the extension-load graph for a spring. For Examiner’s Use P extension 0 0 load Fig. 2.1 Point P is the limit of proportionality. (a) (i) Name the law obeyed by the spring from the origin to P. .............................................................................................................................. [1] (ii) Describe two features of the graph which show that the law is obeyed. 1. ............................................................................................................................... 2. ............................................................................................................................... [2] (b) On Fig. 2.1, sketch a possible continuation of the graph when the spring is loaded beyond the limit of proportionality. [1] [Total: 4] © UCLES 2013 0625/32/M/J/13
5 3 Water molecules evaporate from a puddle and escape to the atmosphere. Water molecules also escape to the atmosphere from water boiling in a kettle. For Examiner’s Use (a) State two ways in which evaporation differs from boiling. 1. ...................................................................................................................................... .......................................................................................................................................... 2. ...................................................................................................................................... .......................................................................................................................................... [2] (b) This part of the question is about an experiment to determine the specific latent heat of vaporisation of water. (i) Suggest apparatus that will provide thermal energy (heat) and state the readings needed to determine the amount of thermal energy provided. apparatus ................................................................................................................. .................................................................................................................................. readings ................................................................................................................... .................................................................................................................................. .................................................................................................................................. [2] (ii) Suggest apparatus required for determining the mass of liquid vaporised and state the readings needed to determine that mass. apparatus ................................................................................................................. .................................................................................................................................. readings ................................................................................................................... .................................................................................................................................. .................................................................................................................................. [2] [Total: 6] © UCLES 2013 0625/32/M/J/13 [Turn over
6 4 A rocket, initially at rest on the ground, accelerates vertically. For Examiner’s Use It accelerates uniformly until it reaches a speed of 900 m / s after 30 s. After this period of uniform acceleration, the rocket engine cuts out. During the next 90 s, the upward speed of the rocket decreases uniformly to zero. (a) On Fig. 4.1, plot a speed-time graph for the rocket for the first 120 s of its flight. speed m/s time / s Fig. 4.1 [4] (b) Using the graph, (i) calculate the acceleration during the first 30 s, acceleration = .................................................. [2] © UCLES 2013 0625/32/M/J/13
7 (ii) determine the height reached by the rocket after 120 s. For Examiner’s Use height reached = .................................................. [2] [Total: 8] © UCLES 2013 0625/32/M/J/13 [Turn over
8 5 (a) Fig. 5.1 shows an aerial view of wavefronts passing from the open sea into an outer harbour. open sea outer harbour wall direction of wave travel outer harbour inner harbour wall inner harbour Fig. 5.1 (i) The wavefronts in the outer harbour are curving at their ends. Name the process that is occurring at the entrance to the harbour. .............................................................................................................................. [1] (ii) © UCLES 2013 On Fig. 5.1, carefully complete the wave pattern as the wavefronts progress through the outer harbour and into the inner harbour. Show the rest of the wave pattern in the outer harbour and three wavefronts in the inner harbour. [3] 0625/32/M/J/13 For Examiner’s Use
9 (b) Fig. 5.2 shows an aerial view of wavefronts in deep water approaching a region of shallow water where they travel more slowly. deep water For Examiner’s Use shallow water direction of wave travel interface Fig. 5.2 (i) Name the process that occurs as the wavefronts pass from deep to shallow water. .............................................................................................................................. [1] (ii) Complete Fig. 5.2 to show possible positions of the five wavefronts in the shallow water. [2] [Total: 7] © UCLES 2013 0625/32/M/J/13 [Turn over
10 6 (a) Fig. 6.1 shows two rays from a point object P incident on a water surface. An observer sees the image of P produced by reflection at the surface of the water. P water surface air water Fig. 6.1 On Fig. 6.1, draw the reflected rays and complete the diagram to locate the position of the image. Label the position of the image I. [2] (b) Fig. 6.2 shows two rays from a point object Q incident on another water surface. An observer sees the image of Q produced by refraction at the surface of the water. water surface air water Q Fig. 6.2 On Fig. 6.2, draw possible refracted rays and complete the diagram to locate a possible position of the image. Label the position of the image J. You do not need to calculate any angles. [2] © UCLES 2013 0625/32/M/J/13 For Examiner’s Use
11 (c) The refractive index of water is 1.33. For Examiner’s Use Calculate the critical angle. critical angle = .................................................. [2] (d) Describe, with a diagram, a medical use of optical fibres. .......................................................................................................................................... .......................................................................................................................................... .......................................................................................................................................... .......................................................................................................................................... ...................................................................................................................................... [3] [Total: 9] © UCLES 2013 0625/32/M/J/13 [Turn over
12 7 The solar charger shown in Fig. 7.1 is used to charge portable electronic devices in a part of the world without any other electricity supply. solar panels Fig. 7.1 The dimensions of each of the solar panels are 0.25 m × 0.20 m. The solar power incident on 1.0 m2 of flat ground in this part of the world is 260 W. (a) Calculate the total solar power incident on the two panels of the charger. solar power = ................................................. [2] (b) The output of the charger is 0.95 A at 20 V. Calculate the efficiency of the charger. efficiency = .................................................. [3] © UCLES 2013 0625/32/M/J/13 For Examiner’s Use
13 (c) Three devices A, B and C are connected together and then connected to the 20 V charger. The potential difference (p.d.) across A is measured as 14 V, across B it is 14 V and across C it is 6 V. For Examiner’s Use Complete Fig. 7.2 to show the arrangement of the devices connected to the charger. Draw devices B and C as similar boxes to the box shown for device A. output from charger 20 V device A Fig. 7.2 [2] (d) Two other devices, D and E, have resistances of 20 Ω and 30 Ω. Calculate the total resistance of D and E when they are connected in parallel. total resistance = .................................................. [2] [Total: 9] © UCLES 2013 0625/32/M/J/13 [Turn over
14 8 Fig. 8.1 shows a vertical current-carrying wire passing through a card at point X. X Y Z card current direction Fig. 8.1 (a) On Fig. 8.1, sketch on the card the pattern of the magnetic field produced by the current in the wire. The detail of your sketch should suggest the variation in the strength of the field. Show the direction of the field with arrows. [3] (b) Using your knowledge of investigating the magnetic field around a bar magnet, suggest an experiment or experiments to confirm that you have drawn the correct pattern and direction in (a). .......................................................................................................................................... .......................................................................................................................................... .......................................................................................................................................... .......................................................................................................................................... .......................................................................................................................................... .......................................................................................................................................... .......................................................................................................................................... .......................................................................................................................................... [4] © UCLES 2013 0625/32/M/J/13 For Examiner’s Use
15 (c) A second current-carrying wire is inserted vertically through the card at Y. For Examiner’s Use Suggest why there is now a force on the wire at X. .......................................................................................................................................... .......................................................................................................................................... .......................................................................................................................................... ...................................................................................................................................... [2] (d) The wire at Y is moved to Z. It still carries the same current. Tick the appropriate box to indicate whether the force on the wire at X is now smaller, greater or the same. smaller greater same [1] [Total: 10] © UCLES 2013 0625/32/M/J/13 [Turn over
16 9 There is an alternating current in the primary coil of the transformer shown in Fig. 9.1. For Examiner’s Use soft-iron core primary coil secondary coil Fig. 9.1 (a) Tick one box in each line of the table that best describes the magnetic field in the core and the magnetic field in the secondary coil. magnetic field continually increasing and decreasing continually increasing continually decreasing zero soft-iron core secondary coil [2] (b) State and explain the effect on the output from the secondary coil of (i) increasing the voltage across the primary coil, output ....................................................................................................................... explanation ............................................................................................................... .................................................................................................................................. .................................................................................................................................. .................................................................................................................................. [2] © UCLES 2013 0625/32/M/J/13
17 (ii) replacing the alternating current in the primary coil with direct current from a battery. output ....................................................................................................................... For Examiner’s Use explanation ............................................................................................................... .................................................................................................................................. .................................................................................................................................. .................................................................................................................................. [2] [Total: 6] © UCLES 2013 0625/32/M/J/13 [Turn over
18 10 There are two stable, naturally occurring isotopes of hydrogen. For Examiner’s Use Common hydrogen (hydrogen-1) has a proton number of 1 and a nucleon number of 1. Hydrogen-2 (deuterium) has a nucleon number of 2. There is also a radioactive isotope of hydrogen called tritium (hydrogen-3), with a nucleon number of 3. (a) Complete the table for neutral atoms of these isotopes. hydrogen-1 hydrogen-2 (deuterium) hydrogen-3 (tritium) number of protons number of neutrons number of electrons [3] (b) Two samples of tritium are stored in aluminium containers of different thickness. Sample 1 is in a container of thickness 0.5 mm and radiation can be detected coming through the container. Sample 2 is in a container of thickness 5 mm and no radiation comes through. (i) State the type of radiation coming through the container of Sample 1. .............................................................................................................................. [1] (ii) Explain your answer to (b)(i). .................................................................................................................................. .................................................................................................................................. .................................................................................................................................. .............................................................................................................................. [2] (c) Under conditions of extremely high temperature and pressure, as in the interior of the Sun, hydrogen nuclei can join together. (i) Name this process. .............................................................................................................................. [1] (ii) State whether energy is released, absorbed or neither released nor absorbed during this reaction. .............................................................................................................................. [1] © UCLES 2013 0625/32/M/J/13
19 (d) When a nucleus of a certain isotope of uranium is bombarded by a suitable neutron, it splits into two smaller nuclei and energy is released. For Examiner’s Use Name this process. ...................................................................................................................................... [1] [Total: 9] Turn over for Question 11 © UCLES 2013 0625/32/M/J/13 [Turn over
20 11 Fig. 11.1 shows the main components of a cathode-ray oscilloscope. For Examiner’s Use Fig. 11.1 (a) (i) Name the particles that are in the beam. .............................................................................................................................. [1] (ii) Explain the purpose of the heater. .............................................................................................................................. [1] (iii) Explain why there is a vacuum in the tube. .................................................................................................................................. .............................................................................................................................. [1] (b) When no potential difference (p.d.) is applied across either the X-plates or the Y-plates, a spot is seen in the centre of the fluorescent screen. Describe the p.d.s applied to the X-plates and to the Y-plates when the spot moves up and down in the centre of the screen. X-plates ............................................................................................................................ Y-plates ............................................................................................................................ [2] [Total: 5] Permission to reproduce items where third-party owned material protected by copyright is included has been sought and cleared where possible. Every reasonable effort has been made by the publisher (UCLES) to trace copyright holders, but if any items requiring clearance have unwittingly been included, the publisher will be pleased to make amends at the earliest possible opportunity. University of Cambridge International Examinations is part of the Cambridge Assessment Group. Cambridge Assessment is the brand name of University of Cambridge Local Examinations Syndicate (UCLES), which is itself a department of the University of Cambridge. © UCLES 2013 0625/32/M/J/13

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0625 s13-qp-32

  • 1. UNIVERSITY OF CAMBRIDGE INTERNATIONAL EXAMINATIONS International General Certificate of Secondary Education * 5 6 3 8 7 4 8 9 6 2 * 0625/32 PHYSICS Paper 3 Extended May/June 2013 1 hour 15 minutes Candidates answer on the Question Paper. No Additional Materials are required. READ THESE INSTRUCTIONS FIRST Write your Centre number, candidate number and name on all the work you hand in. Write in dark blue or black pen. You may use a pencil for any diagrams or graphs. Do not use staples, paper clips, highlighters, glue or correction fluid. DO NOT WRITE IN ANY BARCODES. Answer all questions. Electronic calculators may be used. You may lose marks if you do not show your working or if you do not use appropriate units. Take the weight of 1 kg to be 10 N (i.e. acceleration of free fall = 10 m / s2). At the end of the examination, fasten all your work securely together. The number of marks is given in brackets [ ] at the end of each question or part question. For Examiner’s Use 1 2 3 4 5 6 7 8 9 10 11 Total This document consists of 20 printed pages. DC (SJF/SW) 58287/5 © UCLES 2013 [Turn over
  • 2. 2 1 Fig. 1.1 shows a side view of a large tank in a marine visitor attraction. sea-water viewing panel M tank Fig. 1.1 (not to scale) The tank is 51 m long and 20 m wide. The sea-water in the tank is 11 m deep and has a density of 1030 kg / m3. (a) Calculate the mass of water in the tank. mass = ................................................. [3] (b) The pressure at point M, halfway down the large viewing panel, is 60 kPa more than atmospheric pressure. Calculate the depth of M below the surface of the water. depth = ................................................. [2] © UCLES 2013 0625/32/M/J/13 For Examiner’s Use
  • 3. 3 (c) The viewing panel is 32.8 m wide and 8.3 m high. Calculate the outward force of the water on the panel. Assume that the pressure at M is the average pressure on the whole panel. For Examiner’s Use force = ................................................. [2] [Total: 7] © UCLES 2013 0625/32/M/J/13 [Turn over
  • 4. 4 2 Fig. 2.1 shows the extension-load graph for a spring. For Examiner’s Use P extension 0 0 load Fig. 2.1 Point P is the limit of proportionality. (a) (i) Name the law obeyed by the spring from the origin to P. .............................................................................................................................. [1] (ii) Describe two features of the graph which show that the law is obeyed. 1. ............................................................................................................................... 2. ............................................................................................................................... [2] (b) On Fig. 2.1, sketch a possible continuation of the graph when the spring is loaded beyond the limit of proportionality. [1] [Total: 4] © UCLES 2013 0625/32/M/J/13
  • 5. 5 3 Water molecules evaporate from a puddle and escape to the atmosphere. Water molecules also escape to the atmosphere from water boiling in a kettle. For Examiner’s Use (a) State two ways in which evaporation differs from boiling. 1. ...................................................................................................................................... .......................................................................................................................................... 2. ...................................................................................................................................... .......................................................................................................................................... [2] (b) This part of the question is about an experiment to determine the specific latent heat of vaporisation of water. (i) Suggest apparatus that will provide thermal energy (heat) and state the readings needed to determine the amount of thermal energy provided. apparatus ................................................................................................................. .................................................................................................................................. readings ................................................................................................................... .................................................................................................................................. .................................................................................................................................. [2] (ii) Suggest apparatus required for determining the mass of liquid vaporised and state the readings needed to determine that mass. apparatus ................................................................................................................. .................................................................................................................................. readings ................................................................................................................... .................................................................................................................................. .................................................................................................................................. [2] [Total: 6] © UCLES 2013 0625/32/M/J/13 [Turn over
  • 6. 6 4 A rocket, initially at rest on the ground, accelerates vertically. For Examiner’s Use It accelerates uniformly until it reaches a speed of 900 m / s after 30 s. After this period of uniform acceleration, the rocket engine cuts out. During the next 90 s, the upward speed of the rocket decreases uniformly to zero. (a) On Fig. 4.1, plot a speed-time graph for the rocket for the first 120 s of its flight. speed m/s time / s Fig. 4.1 [4] (b) Using the graph, (i) calculate the acceleration during the first 30 s, acceleration = .................................................. [2] © UCLES 2013 0625/32/M/J/13
  • 7. 7 (ii) determine the height reached by the rocket after 120 s. For Examiner’s Use height reached = .................................................. [2] [Total: 8] © UCLES 2013 0625/32/M/J/13 [Turn over
  • 8. 8 5 (a) Fig. 5.1 shows an aerial view of wavefronts passing from the open sea into an outer harbour. open sea outer harbour wall direction of wave travel outer harbour inner harbour wall inner harbour Fig. 5.1 (i) The wavefronts in the outer harbour are curving at their ends. Name the process that is occurring at the entrance to the harbour. .............................................................................................................................. [1] (ii) © UCLES 2013 On Fig. 5.1, carefully complete the wave pattern as the wavefronts progress through the outer harbour and into the inner harbour. Show the rest of the wave pattern in the outer harbour and three wavefronts in the inner harbour. [3] 0625/32/M/J/13 For Examiner’s Use
  • 9. 9 (b) Fig. 5.2 shows an aerial view of wavefronts in deep water approaching a region of shallow water where they travel more slowly. deep water For Examiner’s Use shallow water direction of wave travel interface Fig. 5.2 (i) Name the process that occurs as the wavefronts pass from deep to shallow water. .............................................................................................................................. [1] (ii) Complete Fig. 5.2 to show possible positions of the five wavefronts in the shallow water. [2] [Total: 7] © UCLES 2013 0625/32/M/J/13 [Turn over
  • 10. 10 6 (a) Fig. 6.1 shows two rays from a point object P incident on a water surface. An observer sees the image of P produced by reflection at the surface of the water. P water surface air water Fig. 6.1 On Fig. 6.1, draw the reflected rays and complete the diagram to locate the position of the image. Label the position of the image I. [2] (b) Fig. 6.2 shows two rays from a point object Q incident on another water surface. An observer sees the image of Q produced by refraction at the surface of the water. water surface air water Q Fig. 6.2 On Fig. 6.2, draw possible refracted rays and complete the diagram to locate a possible position of the image. Label the position of the image J. You do not need to calculate any angles. [2] © UCLES 2013 0625/32/M/J/13 For Examiner’s Use
  • 11. 11 (c) The refractive index of water is 1.33. For Examiner’s Use Calculate the critical angle. critical angle = .................................................. [2] (d) Describe, with a diagram, a medical use of optical fibres. .......................................................................................................................................... .......................................................................................................................................... .......................................................................................................................................... .......................................................................................................................................... ...................................................................................................................................... [3] [Total: 9] © UCLES 2013 0625/32/M/J/13 [Turn over
  • 12. 12 7 The solar charger shown in Fig. 7.1 is used to charge portable electronic devices in a part of the world without any other electricity supply. solar panels Fig. 7.1 The dimensions of each of the solar panels are 0.25 m × 0.20 m. The solar power incident on 1.0 m2 of flat ground in this part of the world is 260 W. (a) Calculate the total solar power incident on the two panels of the charger. solar power = ................................................. [2] (b) The output of the charger is 0.95 A at 20 V. Calculate the efficiency of the charger. efficiency = .................................................. [3] © UCLES 2013 0625/32/M/J/13 For Examiner’s Use
  • 13. 13 (c) Three devices A, B and C are connected together and then connected to the 20 V charger. The potential difference (p.d.) across A is measured as 14 V, across B it is 14 V and across C it is 6 V. For Examiner’s Use Complete Fig. 7.2 to show the arrangement of the devices connected to the charger. Draw devices B and C as similar boxes to the box shown for device A. output from charger 20 V device A Fig. 7.2 [2] (d) Two other devices, D and E, have resistances of 20 Ω and 30 Ω. Calculate the total resistance of D and E when they are connected in parallel. total resistance = .................................................. [2] [Total: 9] © UCLES 2013 0625/32/M/J/13 [Turn over
  • 14. 14 8 Fig. 8.1 shows a vertical current-carrying wire passing through a card at point X. X Y Z card current direction Fig. 8.1 (a) On Fig. 8.1, sketch on the card the pattern of the magnetic field produced by the current in the wire. The detail of your sketch should suggest the variation in the strength of the field. Show the direction of the field with arrows. [3] (b) Using your knowledge of investigating the magnetic field around a bar magnet, suggest an experiment or experiments to confirm that you have drawn the correct pattern and direction in (a). .......................................................................................................................................... .......................................................................................................................................... .......................................................................................................................................... .......................................................................................................................................... .......................................................................................................................................... .......................................................................................................................................... .......................................................................................................................................... .......................................................................................................................................... [4] © UCLES 2013 0625/32/M/J/13 For Examiner’s Use
  • 15. 15 (c) A second current-carrying wire is inserted vertically through the card at Y. For Examiner’s Use Suggest why there is now a force on the wire at X. .......................................................................................................................................... .......................................................................................................................................... .......................................................................................................................................... ...................................................................................................................................... [2] (d) The wire at Y is moved to Z. It still carries the same current. Tick the appropriate box to indicate whether the force on the wire at X is now smaller, greater or the same. smaller greater same [1] [Total: 10] © UCLES 2013 0625/32/M/J/13 [Turn over
  • 16. 16 9 There is an alternating current in the primary coil of the transformer shown in Fig. 9.1. For Examiner’s Use soft-iron core primary coil secondary coil Fig. 9.1 (a) Tick one box in each line of the table that best describes the magnetic field in the core and the magnetic field in the secondary coil. magnetic field continually increasing and decreasing continually increasing continually decreasing zero soft-iron core secondary coil [2] (b) State and explain the effect on the output from the secondary coil of (i) increasing the voltage across the primary coil, output ....................................................................................................................... explanation ............................................................................................................... .................................................................................................................................. .................................................................................................................................. .................................................................................................................................. [2] © UCLES 2013 0625/32/M/J/13
  • 17. 17 (ii) replacing the alternating current in the primary coil with direct current from a battery. output ....................................................................................................................... For Examiner’s Use explanation ............................................................................................................... .................................................................................................................................. .................................................................................................................................. .................................................................................................................................. [2] [Total: 6] © UCLES 2013 0625/32/M/J/13 [Turn over
  • 18. 18 10 There are two stable, naturally occurring isotopes of hydrogen. For Examiner’s Use Common hydrogen (hydrogen-1) has a proton number of 1 and a nucleon number of 1. Hydrogen-2 (deuterium) has a nucleon number of 2. There is also a radioactive isotope of hydrogen called tritium (hydrogen-3), with a nucleon number of 3. (a) Complete the table for neutral atoms of these isotopes. hydrogen-1 hydrogen-2 (deuterium) hydrogen-3 (tritium) number of protons number of neutrons number of electrons [3] (b) Two samples of tritium are stored in aluminium containers of different thickness. Sample 1 is in a container of thickness 0.5 mm and radiation can be detected coming through the container. Sample 2 is in a container of thickness 5 mm and no radiation comes through. (i) State the type of radiation coming through the container of Sample 1. .............................................................................................................................. [1] (ii) Explain your answer to (b)(i). .................................................................................................................................. .................................................................................................................................. .................................................................................................................................. .............................................................................................................................. [2] (c) Under conditions of extremely high temperature and pressure, as in the interior of the Sun, hydrogen nuclei can join together. (i) Name this process. .............................................................................................................................. [1] (ii) State whether energy is released, absorbed or neither released nor absorbed during this reaction. .............................................................................................................................. [1] © UCLES 2013 0625/32/M/J/13
  • 19. 19 (d) When a nucleus of a certain isotope of uranium is bombarded by a suitable neutron, it splits into two smaller nuclei and energy is released. For Examiner’s Use Name this process. ...................................................................................................................................... [1] [Total: 9] Turn over for Question 11 © UCLES 2013 0625/32/M/J/13 [Turn over
  • 20. 20 11 Fig. 11.1 shows the main components of a cathode-ray oscilloscope. For Examiner’s Use Fig. 11.1 (a) (i) Name the particles that are in the beam. .............................................................................................................................. [1] (ii) Explain the purpose of the heater. .............................................................................................................................. [1] (iii) Explain why there is a vacuum in the tube. .................................................................................................................................. .............................................................................................................................. [1] (b) When no potential difference (p.d.) is applied across either the X-plates or the Y-plates, a spot is seen in the centre of the fluorescent screen. Describe the p.d.s applied to the X-plates and to the Y-plates when the spot moves up and down in the centre of the screen. X-plates ............................................................................................................................ Y-plates ............................................................................................................................ [2] [Total: 5] Permission to reproduce items where third-party owned material protected by copyright is included has been sought and cleared where possible. Every reasonable effort has been made by the publisher (UCLES) to trace copyright holders, but if any items requiring clearance have unwittingly been included, the publisher will be pleased to make amends at the earliest possible opportunity. University of Cambridge International Examinations is part of the Cambridge Assessment Group. Cambridge Assessment is the brand name of University of Cambridge Local Examinations Syndicate (UCLES), which is itself a department of the University of Cambridge. © UCLES 2013 0625/32/M/J/13