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Physics 0625 - Paper 3 version 1 - Question Paper - May Jun 2014
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This is question part of paper 3 version 1 of Physics IGCSE CIE board on May June 2014.
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Physics 0625 - Paper 3 version 1 - Question Paper - May Jun 2014
1.
Cambridge International Examinations
Cambridge International General Certificate of Secondary Education This document consists of 12 printed pages. DC (NF/SW) 81293/4 © UCLES 2014 [Turn over * 4 9 2 3 6 8 5 2 9 2 * PHYSICS 0625/31 Paper 3 Extended May/June 2014 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 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. 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. The syllabus is approved for use in England, Wales and Northern Ireland as a Cambridge International Level 1/Level 2 Certificate.
2.
2 1 (a)
Fig. 1.1 shows a liquid-in-glass thermometer. –10 0 10 20 30 40 50 60 70 80 90 100 110 °C Fig. 1.1 (i) In the process of making the thermometer, the scale divisions were spaced equally. What assumption was made about the liquid? ........................................................................................................................................... ...................................................................................................................................... [1] (ii) Suggest two changes to the thermometer that would require the spacing of the scale divisions to be larger. 1. ....................................................................................................................................... 2. ....................................................................................................................................... © UCLES 2014 0625/31/M/J/14 [2] (iii) As a result of the changes in (ii), what other change is needed to enable the thermometer to be used for the same temperature range? ...................................................................................................................................... [1] (b) The expansion of a liquid is an example of a physical property that may be used to measure temperature. State two other physical properties that may also be used to measure temperature. 1. the ................................................................. of ................................................................. 2. the ................................................................. of ................................................................. [2] [Total: 6]
3.
3 2 A
student has a large number of coins of different diameters, all made of the same metal. She wishes to find the density of the metal by a method involving placing the coins in water. (a) State the formula needed to calculate the density. .............................................................................................................................................. [1] (b) Describe how the measurements of the required quantities are carried out. ................................................................................................................................................... ................................................................................................................................................... ................................................................................................................................................... ................................................................................................................................................... ................................................................................................................................................... ................................................................................................................................................... ................................................................................................................................................... ................................................................................................................................................... ................................................................................................................................................... ................................................................................................................................................... .............................................................................................................................................. [5] (c) State one precaution taken when carrying out the measurements in (b) to ensure that the result is as accurate as possible. ................................................................................................................................................... .............................................................................................................................................. [1] [Total: 7] © UCLES 2014 0625/31/M/J/14 [Turn over
4.
4 3 (a)
On a day with no wind, a fountain in Switzerland propels 30 000 kg of water per minute to a height of 140 m. Calculate the power used in raising the water. © UCLES 2014 0625/31/M/J/14 power = ............................................... [4] (b) The efficiency of the pump which operates the fountain is 70%. Calculate the power supplied to the pump. power = ............................................... [3] (c) On another day, a horizontal wind is blowing. The water does not rise vertically. Explain why the water still rises to a height of 140 m. ................................................................................................................................................... .............................................................................................................................................. [1] [Total: 8]
5.
5 4 Fig.
4.1 shows a heavy ball B of weight W suspended from a fixed beam by two ropes P and Q. 30 N 30 N 45° 45° B P beam Q W Fig. 4.1 P and Q are both at an angle of 45° to the horizontal. The tensions in P and Q are each 30 N. (a) In the space below, draw a scale diagram to find the resultant of the tensions in P and Q. Use a scale of 1.0 cm to represent 5.0 N. Label the forces and show their directions with arrows. resultant = ............................................... [4] (b) State the direction of the resultant. ...................................................................................... [1] (c) State the magnitude of W. magnitude of W = ............................................... [1] [Total: 6] © UCLES 2014 0625/31/M/J/14 [Turn over
6.
6 5 (a)
A water tank has a rectangular base of dimensions 1.5 m by 1.2 m and contains 1440 kg of water. Calculate (i) the weight of the water, © UCLES 2014 0625/31/M/J/14 weight = ............................................... [1] (ii) the pressure exerted by the water on the base of the tank. pressure = ............................................... [2] (b) Fig. 5.1 shows two water tanks P and Q of different shape. Both tanks are circular when viewed from above. The tanks each contain the same volume of water. The depth of water in both tanks is 1.4 m. 1.4 m P Q Fig. 5.1 (i) The density of water is 1000 kg / m3. The pressures exerted by the water on the base of the two tanks are equal. Calculate this pressure. pressure = ............................................... [2] (ii) Equal small volumes of water are removed from each tank. State which tank, P or Q, now has the greater water pressure on its base. Explain your answer. ........................................................................................................................................... ........................................................................................................................................... ...................................................................................................................................... [2] [Total: 7]
7.
7 6 Fig.
6.1 shows a quantity of gas in a cylinder fitted with a piston P. gas P Fig. 6.1 (a) Describe the motion of the molecules of the gas. ................................................................................................................................................... ................................................................................................................................................... ................................................................................................................................................... ................................................................................................................................................... .............................................................................................................................................. [3] (b) The piston is now slowly pushed down to decrease the volume of the gas. The temperature of the gas does not change. (i) State and explain, in terms of molecules, what happens to the pressure of the gas. ........................................................................................................................................... ........................................................................................................................................... ...................................................................................................................................... [2] (ii) Before pushing the piston down, the pressure of the gas was 1.0 × 105 Pa. Pushing the piston down reduces the volume of the gas from 500 cm3 to 240 cm3. Calculate the final pressure of the gas. pressure = ................................................ [2] [Total: 7] © UCLES 2014 0625/31/M/J/14 [Turn over
8.
8 7 (a)
The following are three statements about boiling. • A liquid boils at a fixed temperature. • During boiling, vapour can form at any point within the liquid. • Without a supply of thermal energy, boiling stops. Complete the following equivalent statements about evaporation. • A liquid evaporates at ........................................................................................................ ......................................................................................................................................... . • During evaporation ............................................................................................................. ......................................................................................................................................... . • Without a supply of thermal energy, evaporation ............................................................ . © UCLES 2014 0625/31/M/J/14 [3] (b) A pan containing water boiling at 100 °C is standing on an electrically heated hot-plate. In 20 minutes, 0.075 kg of water is lost as steam. The specific latent heat of vaporisation of water is 2.25 × 106 J / kg. (i) Calculate the energy used in converting 0.075 kg of boiling water to steam. energy = ............................................... [2] (ii) The hot-plate operates at 240 V, 0.65 A. Calculate the energy supplied to the hot-plate in 20 minutes. energy = ............................................... [2] (iii) Suggest why the answers to (b)(i) and (b)(ii) are not the same. ........................................................................................................................................... ...................................................................................................................................... [1] [Total: 8]
9.
9 8 (a)
Draw a straight line from each quantity on the left-hand side to a speed on the right-hand side which is typical for that quantity. speed of sound in gas speed of sound in solid 30 m / s 300 m / s 3000 m / s 30 000 m / s 300 000 m / s [2] (b) Explain why sound waves are described as longitudinal. ................................................................................................................................................... .............................................................................................................................................. [2] (c) Fig. 8.1 shows how the displacement of air molecules, at an instant of time, varies with distance along the path of a sound wave. 0 displacement distance along path of sound wave 0 Fig. 8.1 (i) On Fig. 8.1, sketch two cycles of a sound wave that has a shorter wavelength and a greater amplitude. [2] (ii) State two changes in the sound heard from this wave compared with the original wave. 1. ....................................................................................................................................... 2. ....................................................................................................................................... [2] [Total: 8] © UCLES 2014 0625/31/M/J/14 [Turn over
10.
10 9 In
the circuit shown in Fig. 9.1, resistors can be connected between terminals P and Q. The e.m.f. of the battery is 6.0 V. 6.0 V © UCLES 2014 0625/31/M/J/14 A P Q Fig. 9.1 (a) Calculate the current shown by the ammeter when a 12.0 Ω resistor and a 4.0 Ω resistor are (i) connected in series between P and Q, current = ............................................... [2] (ii) connected in parallel between P and Q. current = ............................................... [3] (b) State the relationship between (i) the resistance R and the length l of a wire of constant cross-sectional area, ........................................................................................................................................... (ii) the resistance R and the cross-sectional area A of a wire of constant length. ........................................................................................................................................... [2] (c) The 12.0 Ω and 4.0 Ω resistors in (a) are wires of the same length and are made of the same alloy. Calculate the ratio: cross-sectional area of 12.0 Ω resistor cross-sectional area of 4.0 Ω resistor ratio = ............................................... [1] [Total: 8]
11.
11 10 Fig.
10.1 shows a coil of wire rotating steadily in the magnetic field between the poles of a permanent magnet. The current generated in the coil is to pass through resistor R. rotation of coil coil N S A B C D R Fig. 10.1 (a) The apparatus in Fig. 10.1 is part of an a.c. generator. What is connected between the ends A and B of the coil and the connections C and D? .............................................................................................................................................. [1] (b) (i) On Fig. 10.2, sketch a graph to show the variation with time of the current through R. [1] current 0 time Fig. 10.2 (ii) On Fig. 10.2, show the time T corresponding to one complete rotation of the coil. [1] (iii) State two ways in which the graph would be different if the coil spins at a faster rate. 1. ....................................................................................................................................... 2. .................................................................................................................................. [2] (c) Suggest what could be connected between C and R so that the current in R is always in the same direction. .............................................................................................................................................. [1] [Total: 6] © UCLES 2014 0625/31/M/J/14 [Turn over
12.
12 11 (a)
Complete the table below for the three types of radiation. radiation nature charge stopped by γ electromagnetic radiation β negative α thick paper 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. © UCLES 2014 0625/31/M/J/14 [3] (b) An isotope of strontium is represented in nuclide notation as 90 38Sr. For a neutral atom of this isotope, state (i) the proton number, ............... (ii) the nucleon number, ............... (iii) the number of neutrons, ............... (iv) the number of electrons. ............... [3] (c) A sample of a radioactive material is placed near a radiation detector. A count-rate of 4800 counts / s is detected from the sample. After 36 hours the count-rate has fallen to 600 counts / s. Calculate how many more hours must pass for the count-rate to become 150 counts / s. number of hours = ............................................... [3] [Total: 9]
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