Topic 5: Statistics 5.3 Cumulative Frequency Paper 1

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Topic 5: Statistics 5.3 Cumulative Frequency Paper 1 1. The following is a cumulative frequency diagram for the time t, in minutes, taken by students to complete a task. Standard Level Write down the median. Find the interquartile range. Complete the frequency table below. (1) Time (minutes) students 0 t < 5 t < t < t < 24 t < t < 6 1

2. A test marked out of 0 is written by 0 students. The cumulative frequency graph for the marks is given below. Write down the number of students who scored marks or less on the test. The middle % of test results lie between marks a and b, where a < b. Find a and b. 3. The cumulative frequency graph below shows the heights of 1 girls in a school. 1 Using the graph 1 (i) write down the median; find the interquartile range. Cumulative frequency 1 0 90 Given that % of the girls are taller than a cm, find the value of a. 0 1 155 1 165 1 175 1 185 Height in centimetres 2

4. The four populations A, B, C and D are the same size and have the same range. Frequency histograms for the four populations are given below. Each of the three box and whisker plots below corresponds to one of the four populations. Write the letter of the correct population under each plot.......... Each of the three cumulative frequency diagrams below corresponds to one of the four populations. Write the letter of the correct population under each diagram. 3

5. The following is the cumulative frequency curve for the time, t minutes, spent by 1 people in a store on a particular day. 1 1 1 1 1 0 cumulative frequency 90 0 1 2 3 4 5 6 7 8 9 11 12 time ( t) (i) How many people spent less than 5 minutes in the store? (iii) Find the number of people who spent between 5 and 7 minutes in the store. Find the median time spent in the store. (6) Given that % of the people spent longer than k minutes, find the value of k. (i) On your answer sheet, copy and complete the following frequency table. t (minutes) 0 t < 2 2 t < 4 4 t < 6 6 t < 8 8 t < t < 12 Frequency 23 15 Hence, calculate an estimate for the mean time spent in the store. (5) (Total 14 marks) 4

6. A test marked out of 0 is written by 0 students. The cumulative frequency graph for the marks is given below. 0 0 Number of candidates 0 0 0 0 0 0 90 0 Mark Write down the number of students who scored marks or less on the test. The middle % of test results lie between marks a and b, where a < b. Find a and b. 5

7. In the research department of a university, 0 mice were timed as they each ran through a maze. The results are shown in the cumulative frequency diagram opposite. How many mice complete the maze in less than seconds? Estimate the median time. (1) (1) Another way of showing the results is the frequency table below. Time t (seconds) mice t < 7 0 7 t < 8 16 8 t < 9 22 9 t < p t < 11 q 11 t < 12 12 t < 13 44 13 t < 14 31 14 t < 15 23 (i) Find the value of p and the value of q. Calculate an estimate of the mean time. 6

8. The cumulative frequency curve below shows the marks obtained in an examination by a group of 0 students. 0 190 1 1 1 1 Number of students 1 1 1 1 0 90 0 90 0 Mark obtained Use the cumulative frequency curve to complete the frequency table below. Mark (x) 0 x < x < x < x < x < 0 students 22 Forty percent of the students fail. Find the pass mark. 7

9. The cumulative frequency curve below shows the heights of 1 basketball players in centimetres. Use the curve to estimate the median height; the interquartile range. 1 1 0 90 players 0 1 165 1 175 1 185 190 195 0 Height in centimetres. A student measured the diameters of snail shells. His results are shown in the following cumulative frequency graph. The lower quartile (LQ) is 14 mm and is marked clearly on the graph. Cumulative frequency 90 0 0 5 15 LQ = 14 25 35 45 Diameter (mm) On the graph, mark clearly in the same way and write down the value of (i) the median; the upper quartile. Write down the interquartile range. 8

11. A taxi company has 0 taxi cabs. The cumulative frequency curve below shows the fares in dollars ($) taken by the cabs on a particular morning. 0 1 1 1 1 cabs 0 Fares ($) Use the curve to estimate (i) the median fare; the number of cabs in which the fare taken is $35 or less. The company charges 55 cents per kilometre for distance travelled. There are no other charges. Use the curve to answer the following. On that morning, % of the cabs travel less than a km. Find the value of a. What percentage of the cabs travel more than 90 km on that morning? (Total marks) 9

12. The table below represents the weights, W, in grams, of packets of roasted peanuts. Weight (W) < W 85 85 < W 90 90 < W 95 95 < W 0 0 < W 5 5 < W 1 1 < W 115 packets 5 15 26 13 7 4 Use the midpoint of each interval to find an estimate for the standard deviation of the weights. Copy and complete the following cumulative frequency table for the above data. Weight (W) W 85 W 90 W 95 W 0 W 5 W 1 W 115 packets 5 15 (1) A cumulative frequency graph of the distribution is shown below, with a scale 2 cm for packets on the vertical axis and 2 cm for 5 grams on the horizontal axis. Use the graph to estimate (i) the median; the upper quartile. Give your answers to the nearest gram. Number of packets 85 90 95 0 5 1 115 Weight (grams) (d) Let W 1, W 2,..., W be the individual weights of the packets, and let W be their mean. What is the value of the sum (e) ( W 1 W ) + ( W2 W ) + ( W3 W ) +... + ( W79 W ) + ( W W )? One of the packets is selected at random. Given that its weight satisfies 85 < W 1, find the probability that its weight is greater than 0 grams. (Total 14 marks)

13. A survey is carried out to find the waiting times for 0 customers at a supermarket. Calculate an estimate for the mean of the waiting times, by using an appropriate approximation to represent each interval. Construct a cumulative frequency table for these data. Use the cumulative frequency table to draw a cumulative frequency graph, using a scale of 1 cm per seconds waiting time for the horizontal axis and 1 cm per customers for the vertical axis. (1) (d) Use the cumulative frequency graph to find estimates for the median and the lower and upper quartiles. (Total marks) 14. One thousand candidates sit an examination. The distribution of marks is shown in the following grouped frequency table. Marks 1 11 21 31 41 51 61 71 81 90 91 0 candidates 15 0 1 2 2 90 45 Complete the following table, which presents the above data as a cumulative frequency distribution. Mark 90 0 candidates 15 65 905 Draw a cumulative frequency graph of the distribution, using a scale of 1 cm for 0 candidates on the vertical axis and 1 cm for marks on the horizontal axis. Use your graph to answer parts (i) (iii) below, (5) (i) (iii) Find an estimate for the median score. Candidates who scored less than 35 were required to retake the examination. How many candidates had to retake? The highest-scoring 15% of candidates were awarded a distinction. Find the mark above which a distinction was awarded. (Total 16 marks) 11

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