(IGCSE) Physics May/June 2015 paper 1 variant 1
Question paper found on page 4 / 20 pages total, pdf
4 5 A metal block has the dimensions shown. Its mass is 1000 g. 5 cm 10 cm 2 cm What is the density of the metal? 6 A 5 × 10 3 g / cm 1000 × 2 B 2 × 5 × 10 3 g / cm 1000 C 1000 ×
(IGCSE) Physics May/June 2015 paper 1 variant 2
Question paper found on page 3 / 20 pages total, pdf
3 © UCLES 2015 0625/12/M/J/15 [Turn over 5 A metal block has the dimensions shown. Its mass is 1000 g. 2 cm 10 cm 5 cm What is the density of the metal? A × × 2 1000 10 5 g / cm 3 B × × 1000
(IGCSE) Physics May/June 2015 paper 1 variant 3
Question paper found on page 3 / 20 pages total, pdf
3 © UCLES 2015 0625/13/M/J/15 [Turn over 5 A metal block has the dimensions shown. Its mass is 1000 g. 2 cm 10 cm 5 cm What is the density of the metal? A × × 2 1000 10 5 g / cm 3 B × × 1000
(IGCSE) Physics May/June 2015 paper 3 variant 1
Question paper found on page 16 / 20 pages total, pdf
16 9 In Fig. 9.1, a 12 V battery supplies a current I to a circuit. The circuit contains a thermistor and a 1000 Ω resistor in parallel, with a 500 Ω resistor in series. 12 V I 500 1 1000 1 Fig. 9.1 (a) At a certain temperature, the thermistor has a resistance of 1000 Ω. Calculate (i)
(IGCSE) Physics Oct/Nov 2013 paper 2 variant 3
Question paper found on page 12 / 16 pages total, pdf
s Use 10 (a) Fig. 10.1 shows a light-dependent resistor (LDR) connected with a 1000 Ω resistor to form a potential divider. 1000 1 + – 12.0 V d.c. LDR Fig. 10.1 • In daylight, the LDR has a resistance much lower than 1000 Ω . • In the dark, the LDR has a resistance much higher than 1
(IGCSE) Physics Oct/Nov 2004 paper 1
Question paper found on page 4 / 16 pages total, pdf
4 © UCLES 2004 0625/01/O/N/04 6 The diagram shows some liquid in a measuring cylinder. The mass of the liquid is 16 g. 25 20 15 10 5 cm 3 What is the density of the liquid? A 320 g / cm 3 B 36 g / cm 3 C 1.25 g / cm 3 D 0.8 g /
(IGCSE) Physics May/June 2013 paper 2 variant 2
Question paper found on page 19 / 20 pages total, pdf
s Use (i) Use Fig. 11.1 to find the time taken for the number of atoms to decrease from 4000 to 1000. time = ..................................................... s (ii) How many half-lives elapse as the number of atoms decreases from 4000
(IGCSE) Physics May/June 2017 paper 3 variant 1
Mark scheme found on page 2 / 11 pages total, pdf
0625/31 Cambridge IGCSE – Mark Scheme PUBLISHED Question 1(a) 1(b)(i) 1(b)(ii) 1(c) May/June 2017 Answer Marks rule(r) B1 (stop) watch/clock B1 x–axis labelled time/t with minutes B1 y-axis clearly labelled depth/distance/height with mm/cm/m B1 line drawn from the origin B1 single straight diagonal line B1 1000
(IGCSE) Physics May/June 2014 paper 2 variant 1
Question paper found on page 15 / 16 pages total, pdf
15 0625/21/M/J/14 © UCLES 2014 [Turn over 10 A transformer is a device for changing voltages. Fig. 10.1 shows a transformer that has a primary coil with 1000 turns and a secondary coil with 50 turns. primary coil 1000 turns secondary coil 50 turns core Fig. 10.1 (a) State the material from which the core of
(IGCSE) Physics Oct/Nov 2007 paper 1
Question paper found on page 4 / 20 pages total, pdf
4 UCLES 2007 0625/01/O/N/07 7 A metal drum has a mass of 200 kg when empty and 1000 kg when filled with 1.0 m 3 of methylated spirit. What is the density of methylated spirit? A 0.0050 kg / m 3 B 0.11 kg / m 3 C 800 kg / m 3 D 1000
(IGCSE) Physics Oct/Nov 2019 paper 3 variant 1
Question paper found on page 2 / 20 pages total, pdf
2 1 Fig. 1.1 shows a plastic water barrel. The barrel is full of water. barrel Fig. 1.1 (a) The water barrel contains 0.050 m 3 of pure water. The density of pure water is 1000 kg / m 3 . Calculate the mass of pure water in the barrel. mass of water = .......................
(IGCSE) Physics May/June 2018 paper 3 variant 2
Question paper found on page 10 / 16 pages total, pdf
10 8 (a) Complete the sentences about sound. Use words from the box above each sentence. (i) glows reflects refracts vibrates Sound is produced when a source .............................................. . (ii) electromagnetic longitudinal [1] transverse Sound waves are ....................
(IGCSE) Physics May/June 2015 paper 1 variant 2
Question paper found on page 18 / 20 pages total, pdf
S coil direction of turning current Which change would make the coil turn in the opposite direction? A decreasing the current in the coil B increasing the number of turns on the coil C reversing both the direction of the current in the coil and the poles of the magnet D reversing only the direction of the current in the coil 36 A transformer has 1000 turns on its primary coil. An
(IGCSE) Physics May/June 2016 paper 4 variant 2
Mark scheme found on page 9 / 10 pages total, pdf
s C1 ( I =) 3.4 × 10 –9 A A1 Total: 7 Question Answer Marks 10(a) P=V 2 / R in any form or V 2 / P B1 (240 2 / 1000 = ) 58 Ω B1 10(b) (120 2 / 1000 = ) 14 Ω B1 10(c) P=V I in any form
(IGCSE) Physics Oct/Nov 2016 paper 4 variant 1
Mark scheme found on page 5 / 11 pages total, pdf
Page 5 Mark Scheme Cambridge IGCSE – October/November 2016 Question Syllabus 0625 Paper 41 Answer Marks 2(a)(i) (P =) hdg OR 15 × 1000 × 10 1.5 × 10 5 or 150 000 Pa or N / m 2 or 150 kPa or kN / m 2 C1 A1 2(a)(ii) (F =) PA OR 1
(IGCSE) Physics Oct/Nov 2010 paper 3 variant 1
Question paper found on page 5 / 20 pages total, pdf
5 0625/31/O/N/10 © UCLES 2010 [Turn over (b) The weight of each of the two car supports is 1000 N. Calculate the mass of the car. mass = ......................................................... [2] [Total: 7]
(IGCSE) Physics May/June 2010 paper 2 variant 3
Question paper found on page 21 / 24 pages total, pdf
s Use (c) A quantity of radioactive material has to be taken from a nuclear reactor to a factory some distance away. Fig. 12.2 shows the decay curve for the quantity of radioactive material. 0 0 time / hours counts / minute count rate 2 4 6 8 10 12 14 16 500 1000 1500 2000 Fig. 12.2 Just before it leaves
(IGCSE) Physics May/June 2010 paper 2 variant 2
Question paper found on page 21 / 24 pages total, pdf
s Use (c) A quantity of radioactive material has to be taken from a nuclear reactor to a factory some distance away. Fig. 12.2 shows the decay curve for the quantity of radioactive material. 0 0 time / hours counts / minute count rate 2 4 6 8 10 12 14 16 500 1000 1500 2000 Fig. 12.2 Just before it leaves
(IGCSE) Physics Oct/Nov 2012 paper 2 variant 3
Question paper found on page 19 / 20 pages total, pdf
s time / s Fig. 12.1 (a) From Fig. 12.1, find the time taken for the count rate to decrease from 1000 counts / s to 125 counts / s. time = .............................................. s [1] (b) How many half-lives of the
(IGCSE) Physics Oct/Nov 2011 paper 2 variant 1
Question paper found on page 15 / 16 pages total, pdf
s 800 1000 Fig. 12.1 (b) (i) From your graph, find the time at which the count-rate is 1. 800 counts / s, .................................................. days 2. 200 counts / s. .................
(IGCSE) Physics May/June 2022 paper 4 variant 1
Mark scheme found on page 6 / 12 pages total, pdf
s ⩽ answer ⩽ 23.5 m / sA2 the coordinates at one point on curve (e.g. (0.50, 11)) and (upper) time coordinate ⩽ 1.0 s C1 1(d)(i)air resistance / air friction acts on the carB1 1(d)(ii)air resistance / resultant / resistive force decreases and as speed decreases / car deceleratesA2 air resistance / resultant / resistive force
(IGCSE) Physics Feb/March 2019 paper 1 variant 2
Question paper found on page 10 / 16 pages total, pdf
the boat again after 1.3 s. The sea-bed is 1000 m below the boat. boat 1000 m sea-bed Using this information, what is the speed of sound in the water? A 770 m / s © UCLES 2019 B 1300 m / s C 1500 m / s 0625/12/F/M/19 D 2600 m / s
(IGCSE) Physics May/June 2006 paper 2
Question paper found on page 14 / 16 pages total, pdf
s, a drop of oil hits the road. (a) The car is driven at a steady speed of 10 m/s through the town. (i) Calculate the distance on the road between one oil drop and the next oil drop. distance between oil drops = ................... m [2] (ii) The town is 500 m across. Show that it
(IGCSE) Physics Feb/March 2015 paper 1 variant 2
Question paper found on page 11 / 20 pages total, pdf
s. The sea-bed is 1000 m below the boat. sea-bed boat 1000 m Using this information, what is the speed of sound in the water? A 769 m / s B 1300 m / s C 1538 m / s D 2600 m / s 25 Which metal is suitable to use to make a permanent magnet? A aluminium B brass C
(IGCSE) Physics Oct/Nov 2020 paper 4 variant 1
Mark scheme found on page 12 / 17 pages total, pdf
0625/41 Cambridge IGCSE – Mark Scheme PUBLISHED Question 3(a) 3(b)(i) 3(b)(ii) Answer Marks (pliq =) hρg (in any form) or 0.400 × 1000 × 10 or 2000 or 4000 or 1.02 × 105 (Pa)C1 (p =) patm + hρg (in any form) or 1.00 × 1
(IGCSE) Physics Oct/Nov 2021 paper 4 variant 3
Mark scheme found on page 11 / 16 pages total, pdf
0625/43 Cambridge IGCSE – Mark Scheme PUBLISHED Question October/November 2021 Answer Marks 3(a)(i) 3(a)(ii) B2 pressure in a liquid increases with depth OR pressure decreases (as bubble rises)B1 pressure (of gas) is inversely proportional to volume OR internal pressure greater than external pressure (momentarily) OR (air) molecules do not have to hit surface of bubble as frequently (to
(IGCSE) Physics Oct/Nov 2010 paper 2 variant 1
Question paper found on page 17 / 20 pages total, pdf
17 0625/21/O/N/10 © UCLES 2010 [Turn over 0 0 100 200 300 400 500 600 700 800 900 1000 20 40 60 80 100 120 elapsed time / minutes count rate counts / min 140 160 time to decrease from 800 counts / min to 200 counts /
(IGCSE) Physics Feb/March 2017 paper 3 variant 2
Mark scheme found on page 8 / 11 pages total, pdf
) 8(b)(i) 8(b)(ii) March 2017 Answer Marks indication of speeds / velocity B1 light quickest B1 echo / reflection (of sound) B1 from cliff B1 speed = distance ÷ time in any recognised form C1 1000 ÷ 330 C1 3.03 (s) A1 5–7 seconds B1 Total: © UCLES 2017 Page 8 of 11 8
(IGCSE) Physics Oct/Nov 2008 paper 2
Question paper found on page 3 / 16 pages total, pdf
s Use © UCLES 2008 2 The tank in Fig. 2.1 measures 2.0 m × 1.5 m × 1.0 m. It is full of water. water Fig. 2.1 (a) Calculate the volume of the tank. volume = ................................................ [3] (b)
(IGCSE) Physics Oct/Nov 2021 paper 4 variant 2
Question paper found on page 2 / 16 pages total, pdf
s of the rocket’s flight. 2000 speed m/s 1500 1000 500 0 0 10 20 time / s 30 Fig. 1.2 (a) Describe how the acceleration of the rocket changes between time = 10 s and time = 30 s. ...........................................
(IGCSE) Physics Feb/March 2016 paper 4 variant 2
Question paper found on page 8 / 16 pages total, pdf
8 0625/42/F/M/16 © UCLES 2016 5 (a) A student carries out an experiment to find the relationship between the pressure p and the volume V of a fixed mass of gas. The table contains four of her sets of measurements. p / kPa 250 500 750 1000 V / cm 3 30.0 15.2 9.8 7.6 (
(IGCSE) Physics May/June 2009 paper 3
Question paper found on page 12 / 41 pages total, pdf
s Use (b) The density of the water in a swimming pool is 1000 kg / m 3 . The pool is 3 m deep. (i) Calculate the pressure of the water at the bottom of the pool. pressure = ................................................ [2] (ii) Another pool
(IGCSE) Physics May/June 2006 paper 2
Question paper found on page 11 / 16 pages total, pdf
. half-life of iodine-131 = ....................... days [6] 1000 800 600 400 200 0 0 5 10 15 20 25 30 activity counts _______ / s time / days 11 [Turn over For Examiner's Use 0625/02/M/J/06 © UCLES 2006
(IGCSE) Physics May/June 2015 paper 3 variant 1
Question paper found on page 7 / 20 pages total, pdf
7 (b) The density of water is 1000 kg / m 3 . Calculate the volume of water in cylinder A. volume = ................................................ [2] (c) Piston A moves down a distance of 4.0 m. Calculate the gravitational potential energy lost by the water. loss
(IGCSE) Physics May/June 2009 paper 3
Question paper found on page 32 / 41 pages total, pdf
s Use (b) The density of the water in a swimming pool is 1000 kg / m 3 . The pool is 3 m deep. (i) Calculate the pressure of the water at the bottom of the pool. pressure = ................................................ [2] (ii) Another pool
(IGCSE) Physics May/June 2009 paper 1
Question paper found on page 20 / 41 pages total, pdf
19 © UCLES 2009 0625/11/M/J/09 39 The graph shows the decay curve for one particular radioactive nuclide. 0 1 2 3 4 5 2500 2000 1500 1000 500 0 count rate counts / min time / days What is the half-life of this nuclide? A 1.0 day B 1.5 days C 2.0 days D
(IGCSE) Physics May/June 2022 paper 2 variant 2
Question paper found on page 17 / 20 pages total, pdf
00 turns 25 turns D 15 turns 1200 turns 75 turns 37 The diagram shows a current-carrying wire in a magnetic field. current LEFT N S RIGHT In which direction is the force acting on the wire? Atowards the bottom of the page Bto the left Cto the right Dtowards the top of the page © UCLES 2022 0625/22/M/J/22 [Turn over
(IGCSE) Physics Oct/Nov 2018 paper 4 variant 2
Question paper found on page 2 / 20 pages total, pdf
s speed = ...........................................................[2] (ii) the average speed of the lorry between time t = 60 s and time t = 120 s. average speed = ...............................
(IGCSE) Physics May/June 2022 paper 4 variant 1
Question paper found on page 4 / 16 pages total, pdf
4 2 Fig. 2.1 shows water stored in a reservoir behind a hydroelectric dam. reservoir 150 m generator turbine Fig. 2.1 (not to scale) (a) State the form of the energy stored in the water in the reservoir that is used to generate electricity. ................................................
(IGCSE) Physics Feb/March 2020 paper 2 variant 2
Question paper found on page 18 / 20 pages total, pdf
18 35 The two inputs of a NAND gate are joined together. input output Which truth table represents the action of this gate? A B C D inputoutputinputoutputinputoutputinputoutput 00010001 10101111 36 The diagram shows a transformer that has an output voltage of 12 V. primary coil with 1000 turns soft iron core 240 V a.c. input 12 V a.c.
(IGCSE) Physics Oct/Nov 2003 paper 3
Question paper found on page 4 / 16 pages total, pdf
s 2 . Calculate the pressure that the water exerts on the diver. pressure = .................................... [3] (b) The window in the diver’s helmet is 150 mm wide and 70 mm from top to bottom. Calculate the force that the water exerts on this window. force = .........
(IGCSE) Physics May/June 2018 paper 4 variant 3
Question paper found on page 2 / 16 pages total, pdf
s 4000 3000 2000 1000 0 0 200 100 time / s 300 Fig. 1.1 (a) Determine the acceleration of the space probe at time = 0. acceleration = ...........................................................[3] (b) Between
(IGCSE) Physics May/June 2003 paper 2
Question paper found on page 8 / 16 pages total, pdf
seconds after the sound was made. [1] Fig. 7.1 (b) On Fig. 7.2, draw the graph of distance travelled against time for the sound wave. [3] Fig. 7.2 0 0 500 1000 1500 2000 12345 time/s distance travelled / m For Examiner’s Use time elapsed/s 01234 5 distance travelled/m 0 340
(IGCSE) Physics May/June 2015 paper 6 variant 1
Mark scheme found on page 5 / 5 pages total, pdf
s 2 Paper 61 [1] correct method shown clearly on graph [1] l = 0.99 (m) cao OR ecf 0.49 if T 2 = 2 s 2 used [1] (b) reduce (percentage) uncertainty OR reduce (the effect of) error due to starting/stopping [1] (c) (i) 5 – 10 [1] (ii) minimum not less than 10 g; maximum
(IGCSE) Physics For examination from 2016 paper 3
Specimen question paper found on page 19 / 20 pages total, pdf
19 © UCLES 2014 0625/03/SP/16 [Turn over (c) Fig. 12.2 shows the decay curve for a particular radioactive substance. 0 0 500 1000 1500 2000 2500 1 2 3 4 5 count rate counts / min time / minutes Fig. 12.2 (i) Select and use numbers from the graph to deduce the half-life
(IGCSE) Physics Oct/Nov 2012 paper 2 variant 2
Question paper found on page 18 / 20 pages total, pdf
s Use 11 (a) What is meant by radioactive decay ? .............................................................................................................................
(IGCSE) Physics May/June 2022 paper 2 variant 3
Question paper found on page 15 / 20 pages total, pdf
? induced current X A S C D N R B Y 36 Which transformer can change a 240 V a.c. input into a 15 V a.c. output? A 800 turns B 40 turns 1000 turns C 2400 turns © UCLES 2022 25 turns D 15 turns 1200 turns 0625/23/M/J/22 75 turns [Turn over
(IGCSE) Physics May/June 2015 paper 3 variant 1
Mark scheme found on page 7 / 8 pages total, pdf
s = V p /V s in any form OR (N s =) N p V s /V p OR 8000 × 6/240 OR (V p /V s =) 40 (N S =) 200 (ii) 1 2 Paper 31 C1 A1 (P = IV = 0.050 × 240 =) 12 W B1 0.9 × 12 OR 1
(IGCSE) Physics May/June 2011 paper 2 variant 2
Question paper found on page 13 / 16 pages total, pdf
S 1 S 2 filament cathode vacuum anode + –+ – Fig. 11.1 (a) Which switch has to be closed in order to make the filament release electrons? ......................................................................................
(IGCSE) Physics May/June 2022 paper 2 variant 1
Question paper found on page 15 / 16 pages total, pdf
S N S N S diagram 2 diagram 1 diagram 3 Which magnetic poles are induced at position X in diagram 1 and diagram 3? diagram 1diagram 3 AN poleN pole BN poleS pole CS poleN pole DS poleS pole 36 Which transformer can change a 240 V a.c. input into a 15 V a.c. output? A 800 turns B 40 turns 1000 turns C 2
(IGCSE) Physics Oct/Nov 2010 paper 2 variant 1
Question paper found on page 18 / 20 pages total, pdf
18 0625/21/O/N/10 © UCLES 2010 (ii) From the graph, find the time taken for the count rate to decrease from 800 counts / min to 200 counts / min. Write your answer and any working in the space on the graph. [3] (iii) Use your value from (c)(ii) to determine the half-life of the radioactive substance.
(IGCSE) Physics Oct/Nov 2016 paper 4 variant 1
Question paper found on page 4 / 16 pages total, pdf
4 2 Fig. 2.1 represents the cross-section of an oil tanker in a river. tanker 15 m river water Fig. 2.1 (a) The bottom of the tanker is 15 m below the surface of the water. The area of the bottom of the tanker is 6000 m 2 . The density of the water is 1000 kg / m 3 . (i) Calculate the
(IGCSE) Physics Oct/Nov 2018 paper 4 variant 1
Question paper found on page 2 / 16 pages total, pdf
s, a resultant force acts on the train and it starts to accelerate forwards. Fig. 1.1 is the distance-time graph for the train for the first 120 s. 5000 distance / m 4000 3000 2000 1000 0 0 20 40 60 80 100 time t / s 120 Fig. 1.1 (a) (i) Use Fig. 1
(IGCSE) Physics May/June 2019 paper 3 variant 3
Question paper found on page 15 / 16 pages total, pdf
15 11 (a) Table 11.1 includes information about the properties of three types of naturally occurring, nuclear radiation. Table 11.1 type of radiation α (alpha) charge mass (atomic mass units) nature 0 0 electromagnetic wave +2 helium-4 nucleus 1/2000 Complete the table. [4] (b) The graph shows the decay curve for a radioactive substance. count rate counts /minute 100
(IGCSE) Physics May/June 2010
Examiner report found on page 11 / 37 pages total, pdf
Cambridge International General Ce rtificate of Secondary Education 0625 Physics June 2010 Principal Examiner Report for Teachers © UCLES 2010 Question 12 (a) and (b) A large proportion chose the correct definition of half-life, but very few r ealised that it was the half-life that was the same for the two samples. (c) Very few candidates scored well on this question. As with all
(IGCSE) Physics Oct/Nov 2011 paper 3 variant 1
Question paper found on page 13 / 16 pages total, pdf
S is a 9 V supply. A D C S + – B Fig. 10.1 (i) Name the component labelled B. ....................................................................................................
(IGCSE) Physics May/June 2010 paper 3 variant 3
Question paper found on page 6 / 20 pages total, pdf
s Use 3 An ornamental garden includes a small pond, which contains a pumped system that causes water to go up a pipe and then to run down a heap of rocks. Fig. 3.1 shows a section through this water feature. 0.8 m rocks pumped water rises through pipe water inlet to pump water runs down rocks pump Fig. 3.1 The density of water is 1000 kg /
(IGCSE) Physics Oct/Nov 2021 paper 4 variant 3
Question paper found on page 6 / 20 pages total, pdf
6 3 (a) A gas bubble is released at the bottom of a lake. Atmospheric pressure is 1.0 × 105 Pa. The density of water is 1000 kg / m3. The temperature of the water in the lake is constant. (i) The gas bubble rises to the surface. The volume of the gas bubble increases as it rises higher in the water. Explain why the volume
(IGCSE) Physics Oct/Nov 2011 paper 3 variant 2
Question paper found on page 6 / 20 pages total, pdf
6 0625/32/O/N/11 © UCLES 2011 3 Fig. 3.1 shows a house brick of dimensions 21.0 cm × 10.0 cm × 7.00 cm. 7.00 cm 21.0 cm 10.0 cm Fig. 3.1 The brick is held under water with its largest surfaces horizontal. The density of water is 1000 kg / m 3 . (
(IGCSE) Physics Oct/Nov 2011 paper 1 variant 2
Question paper found on page 20 / 24 pages total, pdf
20 © UCLES 2011 0625/12/O/N/11 38 The graph shows the activity of a radioactive source over a period of time. 2000 1500 1000 500 0 0 1 2 3 time / hour activity / counts per second What is the half-life of the source? A 2 1 hour B 1 hour C 1 2 1 hours D 3 hours
(IGCSE) Physics May/June 2010 paper 3 variant 2
Question paper found on page 6 / 20 pages total, pdf
s Use 3 An ornamental garden includes a small pond, which contains a pumped system that causes water to go up a pipe and then to run down a heap of rocks. Fig. 3.1 shows a section through this water feature. 0.8 m rocks pumped water rises through pipe water inlet to pump water runs down rocks pump Fig. 3.1 The density of water is 1000 kg /
(IGCSE) Physics Oct/Nov 2019 paper 3 variant 1
Mark scheme found on page 6 / 11 pages total, pdf
) water is less than sea water C1 density of plastic OR barrel AND (pure) water is less than sea water A1 Question Answer Marks 2(a) (student) S B1 2(b) 83.37 (s) seen C1 83.37 ÷ 50 C1 1.67 (s) cao A1 165 (mm) B1 2(c) © UCLES 2019 Page 6 of 11
(IGCSE) Physics May/June 2017 paper 3 variant 3
Mark scheme found on page 2 / 9 pages total, pdf
0625/33 Cambridge IGCSE – Mark Scheme PUBLISHED Question May/June 2017 Answer Marks 1(a) any two from: use a ruler with mm (scale) ruler close(r) to book/no space between book and ruler have zero on ruler at one end of book take reading with eye in line with end of book owtte B2 1(b) use large number of pages i.e. more than
(IGCSE) Physics May/June 2014 paper 2 variant 2
Mark scheme found on page 7 / 7 pages total, pdf
b) B1 [Total: 4] 12 (a) 4 (hours) B1 appropriate indication of method (minimum indication any halving of count rate on axis or curve) B1 (b) (i) 1000 B1 (ii) candidate’s (a) B1 (iii) in the range 62 – 63, e.c.f. from (b) (i) and (b)(ii) B1 [Total: 5]
(IGCSE) Physics Oct/Nov 2010 paper 3 variant 1
Question paper found on page 4 / 20 pages total, pdf
4 0625/31/O/N/10 © UCLES 2010 3 Fig. 3.1 shows a hydraulic lift in a car repair workshop. hydraulic fluid 4 pistons, each of area 0.02 m 2 piston A, area 0.01 m 2 car support Fig. 3.1 The hydraulic fluid transmits the pressure, caused by piston A, equally to each of the four pistons holding up the car supports
(IGCSE) Physics Oct/Nov 2012 paper 3 variant 3
Question paper found on page 5 / 12 pages total, pdf
s Use 4 A diver is at a depth of 25 m beneath the surface of a lake. He carries a cylinder of high-pressure air on his back. (a) (i) Explain how the air molecules exert a pressure on the inside surface of the cylinder. ..................................................
(IGCSE) Physics Oct/Nov 2013 paper 1 variant 1
Question paper found on page 15 / 16 pages total, pdf
0 V a.c. into 4800 V a.c. N P N S 240 V a.c. 4800 V a.c. Which pair of coils would be suitable for this transformer? number of turns on primary coil N P number of turns on secondary coil N S A 50 1000 B 240 48 000 C 480 24 D 2000 100
(IGCSE) Physics Oct/Nov 2019 paper 3 variant 2
Question paper found on page 18 / 20 pages total, pdf
18 12 A radioactive substance decays by emitting an α-particle. (a) The nuclide notation for an α-particle is 4 2 (i) α State the term given to the number 4, written in the nuclide notation. ...................................................................
(IGCSE) Physics May/June 2011 paper 3 variant 1
Question paper found on page 6 / 20 pages total, pdf
6 3 During a period of hot weather, the atmospheric pressure on the pond in Fig. 3.1 remains constant. Water evaporates from the pond, so that the depth h decreases. force due to air pressure h Fig. 3.1 (a) Study the diagram and state, giving your reason, what happens during this hot period to (i) the force of the air on the surface of the pond, .
(IGCSE) Physics Oct/Nov 2015 paper 3 variant 1
Question paper found on page 2 / 16 pages total, pdf
s. 0 0 200 400 600 speed m / s 800 1000 1.0 2.0 3.0 time / s 4.0 Fig. 1.2 (a) On Fig. 1.2, mark a point labelled P to indicate a time when the acceleration of the sled is not constant. [1] (b) (i) Calculate the acceleration of the sled at t = 1.0
(IGCSE) Physics Oct/Nov 2013 paper 1 variant 2
Question paper found on page 15 / 16 pages total, pdf
S 240 V a.c. 4800 V a.c. Which pair of coils would be suitable for this transformer? number of turns on primary coil N P number of turns on secondary coil N S A 50 1000 B 240 48 000 C 480 24 D 2000 100 37 The diagram shows a simple d.c. electric motor which is rotating.
(IGCSE) Physics Oct/Nov 2016 paper 3 variant 3
Question paper found on page 8 / 20 pages total, pdf
8 4 Fig. 4.1 shows a car parked on a road. Fig. 4.1 (a) The car has a mass of 1000 kg. Calculate the weight of the car. weight of car = ...................................................... N [2] (b) (i) The combined
(IGCSE) Physics May/June 2018 paper 4 variant 3
Question paper found on page 5 / 16 pages total, pdf
5 3 On a particular day, the atmospheric pressure is 1.0 × 10 5 Pa. A bubble of gas forms at a point 5.0 m below the surface of a lake. The density of water is 1000 kg / m 3 . (a) Determine (i) the total pressure at a depth of 5.0 m in the water, pressure = ..............
(IGCSE) Physics Feb/March 2018 paper 3 variant 2
Mark scheme found on page 4 / 9 pages total, pdf
× 5 × 0.5 C1 50 (m) A1 (average speed =) (total) dist ÷ (total ) time C1 (250 × 4) C1 1000 ÷ 80 C1 12.5 (m / s) A1 43.88 – 20.16 or 23.72 B1 2(b)(i) 2(b)(ii) © UCLES 2018 Page 4 of 9
(IGCSE) Physics Oct/Nov 2019 paper 3 variant 3
Question paper found on page 13 / 16 pages total, pdf
13 10 Fig. 10.1 shows the symbol for an electrical component. Fig. 10.1 (a) State the name of the component shown in Fig. 10.1. ....................................................................................
(IGCSE) Physics Oct/Nov 2021 paper 4 variant 2
Question paper found on page 6 / 16 pages total, pdf
s and collides with car A, of mass 1000 kg, which is stationary. After the collision, both cars travel in the same direction as the initial direction of car B. (a) After the collision, car A moves at 1.3 m / s. Show that the speed of car B after the collision is approximately 0.4 m / s. [3] (b) (i) Calculate the impulse
(IGCSE) Physics May/June 2021 paper 2 variant 3
Question paper found on page 3 / 20 pages total, pdf
3 5 The tank shown has the dimensions 5.0 m 4.0 m 4.0 m. It is completely filled with water of density 1000 kg / m3. 5.0 m 4.0 m 4.0 m What is the mass of water in the tank? A 6 12.5 kg B 62.5 kg C 16 000 kg D 80 000 kg The extension
(IGCSE) Physics Oct/Nov 2017 paper 3 variant 1
Question paper found on page 11 / 20 pages total, pdf
s 0.80 Fig. 7.2 (i) Use the graph to calculate the speed of ultrasound in sea-water. speed = ............................................. m / s [2] (ii) A scientist measures the depth of the sea by using ultrasound. She sends a pulse of ultrasound from the ship to
(IGCSE) Physics May/June 2007 paper 3
Question paper found on page 10 / 16 pages total, pdf
s Use © UCLES 2007 7 Two students are asked to determine the speed of sound in air on the school playing fields. (a) List the apparatus they need. .....................................................................................
(IGCSE) Physics May/June 2009 paper 1
Question paper found on page 38 / 41 pages total, pdf
17 © UCLES 2009 0625/12/M/J/09 [Turn over 37 The diagram shows a cathode-ray tube. cathode anode top Y plate bottom Y plate screen P A student wants the cathode rays to make a spot at P on the screen. Which parts of the cathode-ray tube should be positive? A anode and top Y plate B anode and bottom Y plate C cathode
(IGCSE) Physics May/June 2003 paper 1
Question paper found on page 3 / 20 pages total, pdf
3 0625/01/M/J/03 [Turn over 3 The diagram shows a speed-time graph for a body moving with constant acceleration. What is represented by the shaded area under the graph? A acceleration B distance C speed D time 4 A tunnel has a length of 50 km. A car takes 20 min to travel between the two ends of the tunnel. What is the average speed
(IGCSE) Physics Oct/Nov 2020 paper 4 variant 1
Question paper found on page 6 / 20 pages total, pdf
6 3 A U-shaped tube of constant cross-sectional area contains water of density 1000 kg / m3. Both sides of the U-tube are open to the atmosphere. Fig. 3.1 shows that the water levels in the two sides of the tube are equal. rubber tubing connected to gas supply stopper 0.200 m Fig. 3.1 Fig. 3.2 The atmospheric pressure is 1.00
(IGCSE) Physics May/June 2013 paper 1 variant 1
Question paper found on page 18 / 20 pages total, pdf
18 35 An electric current can produce a heating effect and a magnetic effect. Which row shows the effect that a relay uses, together with one application of a relay? effect used by a relay one application of a relay A heating effect allowing a small current to switch on a large current B heating effect changing the voltage of an alternating current C magnetic effect allowing a small current to switch on
(IGCSE) Physics May/June 2015 paper 2 variant 3
Question paper found on page 7 / 20 pages total, pdf
s journey that involves cycling up a hill 500 m long, between ............ and ............ [1] (ii) the girl travelling at the fastest speed? between ............ and ............ [1] (d) Calculate her average speed, in m / s, for the whole journey. average speed = .
(IGCSE) Physics Oct/Nov 2005 paper 3
Question paper found on page 4 / 16 pages total, pdf
s Use 3 Fig. 3.1 shows a pond that is kept at a constant depth by a pressure-operated valve in the base. Fig. 3.1 (a) The pond is kept at a depth of 2.0 m. The density of water is 1000 kg/m 3 . Calculate the water pressure on the valve. pressure =.........................