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This document consists of 12 printed pages. DC (SJF/KN) 81312/3 © UCLES 2014 [Turn over Cambridge International Examinations Cambridge International General Certificate of Secondary Education *7177366145* PHYSICS 0625/61 Paper 6 Alternative to Practical May/June 2014 1 hour 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 an HB pencil for any diagrams or graphs. Do not use staples, paper clips, 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. 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. The syllabus is approved for use in England, Wales and Northern Ireland as a Cambridge International Level 1/Level 2 Certificate. www.onlineexamhelp.com www.onlineexamhelp.com
2 0625/61/M/J/14© UCLES 2014 1 The IGCSE class is investigating the motion of a mass hanging on a spring. Fig. 1.1 shows the apparatus clamp holding spring spring clamp holding cork pin in cork bench l0 Fig. 1.1 (a) On Fig. 1.1, measure the length l0 of the unstretched spring, in mm. l0 = ........................................ mm [1] (b) The diagram is drawn one tenth of actual size. Write down the actual length L0 of the unstretched spring, in mm. L0 = .........................................mm [1] A student hangs a 300g mass on the spring and measures the new length L of the spring. 255mm L = .................................................... (i) Calculate the extension e of the spring using the equation e = (L – L0 ). e = ..............................................mm (ii) Calculate a value for the spring constant k using the equation k = F e , where F = 3.0N. Include the appropriate unit. k = .................................................... [2]
3 0625/61/M/J/14© UCLES 2014 [Turn over (c) The student adjusts the position of the lower clamp so that the pin is level with the bottom of the mass when the mass is not moving. She pulls the mass down a short distance and releases it so that it oscillates up and down. Fig. 1.2 shows one complete oscillation. highest position of mass lowest position of mass position of mass when stationary position of pin one complete oscillation Fig. 1.2 She measures the time t taken for 20 complete oscillations. 26.84s t = .................................................... Calculate the time T taken for one complete oscillation. T = ............................................... [1] (d) She replaces the 300g mass with a 500g mass. She repeats the timing as described in part (c). 34.48s t = .................................................... (i) Calculate the time T taken for one complete oscillation. T = .................................................... (ii) The student suggests that the time taken for the oscillations of the spring should not be affected by the change in mass. State whether her results support this suggestion and justify your answer by reference to the results. statement .......................................................................................................................... justification ........................................................................................................................ ........................................................................................................................................... ........................................................................................................................................... [2]
4 0625/61/M/J/14© UCLES 2014 (e) Explain briefly how you avoid a line-of-sight (parallax) error when measuring the length of a spring in this type of experiment.You may draw a diagram. ................................................................................................................................................... ................................................................................................................................................... ...............................................................................................................................................[1] [Total: 8]
5 0625/61/M/J/14© UCLES 2014 [Turn over 2 A student carries out an experiment to compare how quickly thermal energy is conducted along rods made from different metals. Each rod is heated at one end with a Bunsen burner flame. Each rod carries a marker held on the rod with a little wax. When the wax melts, the marker falls. heat rod wax marker tripod bench Fig. 2.1 (a) One other piece of equipment is required to compare how quickly thermal energy is conducted. Name this piece of equipment. ...............................................................................................................................................[1] (b) Suggest three possible variables that the student should keep constant in order to make a fair comparison between the different metals. 1. ............................................................................................................................................... 2. ............................................................................................................................................... 3. ............................................................................................................................................... [3] (c) Another student suggests that it would be helpful to measure the temperatures at both ends of the rod. He suggests using a liquid-in-glass thermometer, normally used for measuring the temperature of hot water. Suggest two reasons why a liquid-in-glass thermometer is not suitable. 1. ............................................................................................................................................... 2. ............................................................................................................................................... [2] [Total: 6]
6 0625/61/M/J/14© UCLES 2014 3 The IGCSE class is investigating the cooling of a thermometer bulb under different conditions. A student places a thermometer in a beaker of hot water, as shown in Fig. 3.1. thermometer water –100102030405060708090100110°C Fig. 3.1 Fig. 3.2 (a) Write down the temperature θH of the hot water, as shown on the thermometer in Fig. 3.2. θH ............................................... [1] (b) The student removes the thermometer from the beaker of water. He immediately starts a stopclock. He records the temperature θ every 30s. The readings are shown in Table 3.1. Table 3.1 without insulation with insulation t/ θ/ θ/ 30 78 84 60 71 79 90 67 76 120 65 74 150 63 73 www.onlineexamhelp.com www.onlineexamhelp.com
7 0625/61/M/J/14© UCLES 2014 [Turn over He replaces the thermometer in the beaker of hot water and records its temperature. 90°C θH .................................................... He removes the thermometer from the beaker of hot water and places it in a beaker containing only dry cotton wool. The thermometer bulb is completely surrounded by cotton wool. He immediately starts a stopclock, and records the temperature θ every 30s. The readings are shown in Table 3.1. (i) Complete the column headings in the table. [1] (ii) State whether the cotton wool insulation increases, decreases, or has no significant effect on the rate of cooling of the thermometer bulb, compared with the rate of cooling with no insulation. Justify your answer by reference to the results. statement .......................................................................................................................... justification ........................................................................................................................ ........................................................................................................................................... [2] (c) Suggest two conditions that should be kept constant when this experiment is repeated. 1. ............................................................................................................................................... ................................................................................................................................................... 2. ............................................................................................................................................... ................................................................................................................................................... [2] [Total: 6]
8 0625/61/M/J/14© UCLES 2014 4 The IGCSE class is investigating the resistance of a lamp filament. The circuit is shown in Fig. 4.1. X Z resistance wire power supply Y S V A Fig. 4.1 (a) A student connects the sliding contact S to point X in the circuit. She measures the potential difference V across the lamp and the current I in the circuit. The meters are shown in Fig. 4.2. 0 0.2 0.4 0.6 0.8 1.0A0 1 2 3 4 5 6 7 8 9 10V Fig. 4.2 (i) Write down the readings shown on the meters in Fig. 4.2. V = .................................................... I = .................................................... [2] (ii) Calculate the resistance R of the lamp filament using the equation R = V I . R = ............................................... [2]
9 0625/61/M/J/14© UCLES 2014 [Turn over (b) The student repeats the steps in (a) with the sliding contact S at point Y and then at point Z. Comment on the effect, if any, on the brightness of the lamp that you would expect to see when the sliding contact is moved from X to Y to Z. ................................................................................................................................................... ...............................................................................................................................................[1] (c) The student moves the sliding contact S back to point X. Suggest one practical reason why the new meter readings might be slightly different from those shown in Fig. 4.2. ................................................................................................................................................... ...............................................................................................................................................[1] (d) Another student carries out the experiment using a different lamp. He takes readings using various lengths of resistance wire in the circuit. He plots a graph of V/V against I/A. Fig. 4.3 is a sketch of the graph. V/V I/A 0 0 Fig. 4.3 State whether the graph shows that the resistance increases, decreases or remains constant as the current increases. Justify your conclusion by reference to the graph. The resistance ............................................... . justification ................................................................................................................................ ................................................................................................................................................... [2] [Total: 8]
10 0625/61/M/J/14© UCLES 2014 5 The IGCSE class is investigating reflection using a plane mirror. Fig. 5.1 shows a student’s ray-trace sheet with a line MR drawn on it. In the experiment the reflecting face of a mirror is placed vertically on the line MR. The additional dashed line shows a second mirror position. B M N R L P3 P4 ray-trace sheet Fig. 5.1 (a) NL is a normal to line MR. Draw a line 8.0cm long from B at an angle of incidence i = 30° to the normal, below MR and to the left of the normal. Label the end of this line A. [1] (b) The student places two pins, P1 and P2, on line AB a suitable distance apart for this ray tracing experiment. He views the images of pins P1 and P2 in the mirror and places two pins P3 and P4 so that pins P3 and P4, and the images of P2 and P1, all appear exactly one behind the other. The positions of P3 and P4 are shown in Fig. 5.1. (i) Draw the line joining the positions of P3 and P4. Extend the line until it meets NL. (ii) Measure the angle α0 between NL and the line joining the positions of P3 and P4. At this stage the angle θ between the mirror and line MR is 0°. α0 = .................................................... [2]
11 0625/61/M/J/14© UCLES 2014 [Turn over (c) The student draws lines at angles θ = 10°, 20°, 30°, and 40° to MR. The first line, at 10° to MR, is shown in Fig. 5.1. He repeats the procedure described in part (b), placing the mirror on each of the new lines in turn. The readings are shown in Table 5.1. Table 5.1 θ/° α/° 10 51 20 69 30 90 40 111 50 130 Plot a graph of α/° (y-axis) against θ/° (x-axis). [5] (d) Determine the gradient G of the graph. Show clearly on the graph how you obtained the necessary information. G = ............................................... [2]
12 0625/61/M/J/14© UCLES 2014 (e) In this experiment, when the mirror is moved though an angle θ, the reflected ray moves through an angle (α – α0). Table 5.2 θ/° α/° (α – α0)/° 10 51 20 69 30 90 40 111 50 130 (i) Complete Table 5.2. (ii) Suggest the relationship between (α – α0) and θ. You may express the relationship in words or as an equation. ........................................................................................................................................... ........................................................................................................................................... [1] (f) State one precaution, to improve accuracy, which you would take in this experiment. ................................................................................................................................................... ...............................................................................................................................................[1] [Total: 12] 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. 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.

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  • 1. This document consists of 12 printed pages. DC (SJF/KN) 81312/3 © UCLES 2014 [Turn over Cambridge International Examinations Cambridge International General Certificate of Secondary Education *7177366145* PHYSICS 0625/61 Paper 6 Alternative to Practical May/June 2014 1 hour 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 an HB pencil for any diagrams or graphs. Do not use staples, paper clips, 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. 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. The syllabus is approved for use in England, Wales and Northern Ireland as a Cambridge International Level 1/Level 2 Certificate. www.onlineexamhelp.com www.onlineexamhelp.com
  • 2. 2 0625/61/M/J/14© UCLES 2014 1 The IGCSE class is investigating the motion of a mass hanging on a spring. Fig. 1.1 shows the apparatus clamp holding spring spring clamp holding cork pin in cork bench l0 Fig. 1.1 (a) On Fig. 1.1, measure the length l0 of the unstretched spring, in mm. l0 = ........................................ mm [1] (b) The diagram is drawn one tenth of actual size. Write down the actual length L0 of the unstretched spring, in mm. L0 = .........................................mm [1] A student hangs a 300g mass on the spring and measures the new length L of the spring. 255mm L = .................................................... (i) Calculate the extension e of the spring using the equation e = (L – L0 ). e = ..............................................mm (ii) Calculate a value for the spring constant k using the equation k = F e , where F = 3.0N. Include the appropriate unit. k = .................................................... [2]
  • 3. 3 0625/61/M/J/14© UCLES 2014 [Turn over (c) The student adjusts the position of the lower clamp so that the pin is level with the bottom of the mass when the mass is not moving. She pulls the mass down a short distance and releases it so that it oscillates up and down. Fig. 1.2 shows one complete oscillation. highest position of mass lowest position of mass position of mass when stationary position of pin one complete oscillation Fig. 1.2 She measures the time t taken for 20 complete oscillations. 26.84s t = .................................................... Calculate the time T taken for one complete oscillation. T = ............................................... [1] (d) She replaces the 300g mass with a 500g mass. She repeats the timing as described in part (c). 34.48s t = .................................................... (i) Calculate the time T taken for one complete oscillation. T = .................................................... (ii) The student suggests that the time taken for the oscillations of the spring should not be affected by the change in mass. State whether her results support this suggestion and justify your answer by reference to the results. statement .......................................................................................................................... justification ........................................................................................................................ ........................................................................................................................................... ........................................................................................................................................... [2]
  • 4. 4 0625/61/M/J/14© UCLES 2014 (e) Explain briefly how you avoid a line-of-sight (parallax) error when measuring the length of a spring in this type of experiment.You may draw a diagram. ................................................................................................................................................... ................................................................................................................................................... ...............................................................................................................................................[1] [Total: 8]
  • 5. 5 0625/61/M/J/14© UCLES 2014 [Turn over 2 A student carries out an experiment to compare how quickly thermal energy is conducted along rods made from different metals. Each rod is heated at one end with a Bunsen burner flame. Each rod carries a marker held on the rod with a little wax. When the wax melts, the marker falls. heat rod wax marker tripod bench Fig. 2.1 (a) One other piece of equipment is required to compare how quickly thermal energy is conducted. Name this piece of equipment. ...............................................................................................................................................[1] (b) Suggest three possible variables that the student should keep constant in order to make a fair comparison between the different metals. 1. ............................................................................................................................................... 2. ............................................................................................................................................... 3. ............................................................................................................................................... [3] (c) Another student suggests that it would be helpful to measure the temperatures at both ends of the rod. He suggests using a liquid-in-glass thermometer, normally used for measuring the temperature of hot water. Suggest two reasons why a liquid-in-glass thermometer is not suitable. 1. ............................................................................................................................................... 2. ............................................................................................................................................... [2] [Total: 6]
  • 6. 6 0625/61/M/J/14© UCLES 2014 3 The IGCSE class is investigating the cooling of a thermometer bulb under different conditions. A student places a thermometer in a beaker of hot water, as shown in Fig. 3.1. thermometer water –100102030405060708090100110°C Fig. 3.1 Fig. 3.2 (a) Write down the temperature θH of the hot water, as shown on the thermometer in Fig. 3.2. θH ............................................... [1] (b) The student removes the thermometer from the beaker of water. He immediately starts a stopclock. He records the temperature θ every 30s. The readings are shown in Table 3.1. Table 3.1 without insulation with insulation t/ θ/ θ/ 30 78 84 60 71 79 90 67 76 120 65 74 150 63 73 www.onlineexamhelp.com www.onlineexamhelp.com
  • 7. 7 0625/61/M/J/14© UCLES 2014 [Turn over He replaces the thermometer in the beaker of hot water and records its temperature. 90°C θH .................................................... He removes the thermometer from the beaker of hot water and places it in a beaker containing only dry cotton wool. The thermometer bulb is completely surrounded by cotton wool. He immediately starts a stopclock, and records the temperature θ every 30s. The readings are shown in Table 3.1. (i) Complete the column headings in the table. [1] (ii) State whether the cotton wool insulation increases, decreases, or has no significant effect on the rate of cooling of the thermometer bulb, compared with the rate of cooling with no insulation. Justify your answer by reference to the results. statement .......................................................................................................................... justification ........................................................................................................................ ........................................................................................................................................... [2] (c) Suggest two conditions that should be kept constant when this experiment is repeated. 1. ............................................................................................................................................... ................................................................................................................................................... 2. ............................................................................................................................................... ................................................................................................................................................... [2] [Total: 6]
  • 8. 8 0625/61/M/J/14© UCLES 2014 4 The IGCSE class is investigating the resistance of a lamp filament. The circuit is shown in Fig. 4.1. X Z resistance wire power supply Y S V A Fig. 4.1 (a) A student connects the sliding contact S to point X in the circuit. She measures the potential difference V across the lamp and the current I in the circuit. The meters are shown in Fig. 4.2. 0 0.2 0.4 0.6 0.8 1.0A0 1 2 3 4 5 6 7 8 9 10V Fig. 4.2 (i) Write down the readings shown on the meters in Fig. 4.2. V = .................................................... I = .................................................... [2] (ii) Calculate the resistance R of the lamp filament using the equation R = V I . R = ............................................... [2]
  • 9. 9 0625/61/M/J/14© UCLES 2014 [Turn over (b) The student repeats the steps in (a) with the sliding contact S at point Y and then at point Z. Comment on the effect, if any, on the brightness of the lamp that you would expect to see when the sliding contact is moved from X to Y to Z. ................................................................................................................................................... ...............................................................................................................................................[1] (c) The student moves the sliding contact S back to point X. Suggest one practical reason why the new meter readings might be slightly different from those shown in Fig. 4.2. ................................................................................................................................................... ...............................................................................................................................................[1] (d) Another student carries out the experiment using a different lamp. He takes readings using various lengths of resistance wire in the circuit. He plots a graph of V/V against I/A. Fig. 4.3 is a sketch of the graph. V/V I/A 0 0 Fig. 4.3 State whether the graph shows that the resistance increases, decreases or remains constant as the current increases. Justify your conclusion by reference to the graph. The resistance ............................................... . justification ................................................................................................................................ ................................................................................................................................................... [2] [Total: 8]
  • 10. 10 0625/61/M/J/14© UCLES 2014 5 The IGCSE class is investigating reflection using a plane mirror. Fig. 5.1 shows a student’s ray-trace sheet with a line MR drawn on it. In the experiment the reflecting face of a mirror is placed vertically on the line MR. The additional dashed line shows a second mirror position. B M N R L P3 P4 ray-trace sheet Fig. 5.1 (a) NL is a normal to line MR. Draw a line 8.0cm long from B at an angle of incidence i = 30° to the normal, below MR and to the left of the normal. Label the end of this line A. [1] (b) The student places two pins, P1 and P2, on line AB a suitable distance apart for this ray tracing experiment. He views the images of pins P1 and P2 in the mirror and places two pins P3 and P4 so that pins P3 and P4, and the images of P2 and P1, all appear exactly one behind the other. The positions of P3 and P4 are shown in Fig. 5.1. (i) Draw the line joining the positions of P3 and P4. Extend the line until it meets NL. (ii) Measure the angle α0 between NL and the line joining the positions of P3 and P4. At this stage the angle θ between the mirror and line MR is 0°. α0 = .................................................... [2]
  • 11. 11 0625/61/M/J/14© UCLES 2014 [Turn over (c) The student draws lines at angles θ = 10°, 20°, 30°, and 40° to MR. The first line, at 10° to MR, is shown in Fig. 5.1. He repeats the procedure described in part (b), placing the mirror on each of the new lines in turn. The readings are shown in Table 5.1. Table 5.1 θ/° α/° 10 51 20 69 30 90 40 111 50 130 Plot a graph of α/° (y-axis) against θ/° (x-axis). [5] (d) Determine the gradient G of the graph. Show clearly on the graph how you obtained the necessary information. G = ............................................... [2]
  • 12. 12 0625/61/M/J/14© UCLES 2014 (e) In this experiment, when the mirror is moved though an angle θ, the reflected ray moves through an angle (α – α0). Table 5.2 θ/° α/° (α – α0)/° 10 51 20 69 30 90 40 111 50 130 (i) Complete Table 5.2. (ii) Suggest the relationship between (α – α0) and θ. You may express the relationship in words or as an equation. ........................................................................................................................................... ........................................................................................................................................... [1] (f) State one precaution, to improve accuracy, which you would take in this experiment. ................................................................................................................................................... ...............................................................................................................................................[1] [Total: 12] 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. 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.