London Examinations IGCSE

Centre No. Paper Reference Surname Initial(s) Candidate No. Signature Paper Reference(s) 4420/03 4437/09 London Examinations IGCSE Physics 4420 Paper 3 Science (Double Award) 4437 Paper 9 Foundation and Higher Tiers Wednesday 10 June 2009 Afternoon Time: 1 hour 15 minutes Examiner s use only Team Leader s use only Question Number Blank 1 2 3 4 Materials required for examination Ruler, protractor, compasses, pencil and calculator Items included with question papers Nil Instructions to Candidates In the boxes above, write your centre number, candidate number, your surname, initial(s) and signature. The paper reference is shown at the top of this page. Write the one for which you have been entered. Check that you have the correct question paper. Some questions must be answered with a cross in a box ( ). If you change your mind about an answer, put a line through the box ( ) and then mark your new answer with a cross ( ). Answer ALL the questions. Write your answers in the spaces provided in this question paper. Show all the steps in any calculations and state the units. Calculators may be used. Information for Candidates The total mark for this paper is 50. The marks for individual questions and the parts of questions are shown in round brackets: e.g. (2). There are 16 pages in this question paper. Any pages are indicated. Advice to Candidates Write your answers neatly and in good English. This publication may be reproduced only in accordance with Edexcel Limited copyright policy. 2009 Edexcel Limited. Printer s Log. No. M34026A W850/U4420/57570 5/7/7/3/ *M34026A0116* Total Turn over

1. A student wants to measure her friend s reaction time. (a) She gives her friend a stopwatch. (i) He starts and stops the stopwatch. The display shows the following reading. 0:01.12 Record this reading.... seconds (ii) She tells him to switch the stopwatch on and off as quickly as possible to measure his reaction time. He does this six times and records the following readings: 0:00.22 0:00.19 0:00.17 0:00.16 0:00.16 0:00.15 1. Describe the trend that these readings show....... 2. State why this is an unsuitable method for measuring reaction time.......... 2 *M34026A0216*

(b) The student tries another method for measuring reaction time. The rule is released by the student and is then caught by her friend. Figure 1 shows the rule before it is released. Her friend s hand is opposite the 30 cm mark on the rule. student friend rule Figure 1 Figure 2 shows the position of her friend s thumb when he has caught the rule. Figure 2 Calculate the distance in cm through which the rule has fallen. *M34026A0316* Distance =... cm (3) 3 Turn over

(c) The student needs to find the time taken for the rule to fall this distance. She uses a tickertape timer and the rule as shown in Figure 3. The rule is released and the timer makes a dot on the tickertape every 0.020 seconds. timer tickertape rule Part of the tape is shown in Figure 4. Figure 3 Figure 4 (i) Record the number of spaces between the dots. (ii) Calculate the time in seconds represented by this part of the tape. (iii) How can you tell from the tape that the rule is accelerating? Time =... s (2) 4 *M34026A0416*

Distance in cm (iv) Using the whole tape, the student measures the distance from the first dot to each of the other dots. She then plots the graph of distance against time as shown below. 50.0 40.0 30.0 20.0 10.0 0.0 0 0.05 0.1 0.15 0.2 0.25 0.3 0.35 Time in seconds 1. Write down your calculated distance from (b). Distance =... cm 2. Use the graph and this distance to find the reaction time, in seconds, of the student s friend. Time =... s Q1 (Total 11 marks) *M34026A0516* 5 Turn over

2. (a) After typing on his computer keyboard for several hours, a student experiences a pain in one of his fingers. He decides to calculate the pressure exerted by his finger when typing. He uses a balance to find the force exerted by his finger. He presses a key on the keyboard and then presses the top of a balance with the same force. Q W E Caps Lock Shift A S Z X finger pressing key 0086.73 g finger pressing balance (i) Record the reading on the balance to the nearest gram. Reading =... g (ii) State two reasons why the reading will not be the same as the force of the finger on the key. 1... 2... (2) 6 *M34026A0616*

(b) From the Internet, the student finds that a force of 0.73 N is needed to press a key on his keyboard. The diagram below shows one of the square keys. It is drawn full-scale. A (i) Measure the key and calculate its area in cm 2. Area of key =...cm 2 (ii) Calculate the pressure in N/cm 2 exerted by the student s finger on this key. Give your answer to an appropriate number of significant figures. (2) pressure = force area Pressure =...N/cm 2 (3) (iii) Explain why your number of significant figures is appropriate. Q2 (Total 9 marks) *M34026A0716* 7 Turn over

BLANK PAGE 8 *M34026A0816*

3. A teacher demonstrates how the count rate detected by a Geiger-Müller tube and counter depends on the separation of the front of the tube and the radioactive source. The source emits alpha particles only. cable to counter separation Geiger-Müller tube radioactive source (a) Measure the separation of the detector and the source. Separation =... cm (b) (i) Before the source is put in place, the teacher takes three readings of background count rate in counts per minute. 28, 25, 28 Calculate the average background count rate in counts per minute. Average background count rate =... counts per minute (ii) A student takes three further readings of the background count rate. 29, 52, 28 State what is wrong with the student s data and suggest what might have caused this. (2) *M34026A0916* 9 Turn over

(c) The graph shows the results of the experiment. Count rate in counts per minute 2000 1000 0 0 2 4 6 Separation of GM tube and source in cm 8 (i) State the range in cm of these alpha particles. (ii) Describe how you would use the apparatus to get these results. Range =... cm (5) 10 *M34026A01016*

(d) (i) Which one of the following is a sensible safety precaution in this experiment? Put a cross ( ) in the correct box. performing the experiment in a darkroom placing the students behind a lead screen switching off all fans using tweezers to handle the radioactive source (ii) Explain why each of the other three is not a sensible safety precaution in this experiment. (2) Q3 (Total 13 marks) *M34026A01116* 11 Turn over

4. The diagram shows a rheostat (variable resistor) together with its circuit symbol. slider L The slider can be moved. When the distance L is changed, the resistance of the rheostat is changed. The maximum value of L is 19 cm. A student investigates how the current I in the rheostat depends on the length L. (a) In the space below draw a circuit diagram for this investigation. (b) (i) State one extra item of equipment, not shown on your diagram, that the student would need. (ii) Describe how this investigation would be carried out. (3) (2) 12 *M34026A01216*

(c) During the investigation, the ammeter reading was as shown below. 0.1 0.2 0.3 0.4 0 A 0.5 Record this reading. Current =... A (d) During the investigation the student recorded the following results. 19, 0.11 10, 0.17 7, 0.24 5, 0.33 6, 0.14 16, 0.12 (i) Put these results in a table with column headings and units. (3) *M34026A01316* 13 Turn over

0.1 (ii) Using the grid plot a graph of current against length. Label the axes. 0.3... 0.2 5 10 15 20... (3) (iii) Circle the anomalous (unexpected) result. (iv) Draw the best-fit curve for the remaining points. (v) Suggest a reason for the anomalous result. 14 *M34026A01416*

(e) Suggest why the student did not use a value of 2 cm for L during the investigation.......... Q4 (Total 17 marks) TOTAL FOR PAPER: 50 MARKS END *M34026A01516* 15

BLANK PAGE 16 *M34026A01616*