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AQA S1 2015 June Q6
13 marks Moderate -0.8
6
  1. In a particular country, 35 per cent of the population is estimated to have at least one mobile phone. A sample of 40 people is selected from the population.
    Use the distribution \(\mathrm { B } ( 40,0.35 )\) to estimate the probability that the number of people in the sample that have at least one mobile phone is:
    1. at most 15 ;
    2. more than 10 ;
    3. more than 12 but fewer than 18 ;
    4. exactly equal to the mean of the distribution.
  2. In the same country, 70 per cent of households have a landline telephone connection. A sample of 50 households is selected from all households in the country.
    Stating a necessary condition regarding this selection, estimate the probability that fewer than 30 households have a landline telephone connection.
    [0pt] [4 marks]
AQA S1 2015 June Q7
12 marks Moderate -0.3
7
  1. The weight of a sack of mixed dog biscuits can be modelled by a normal distribution with a mean of 10.15 kg and a standard deviation of 0.3 kg . A pet shop purchases 12 such sacks that can be considered to be a random sample.
    Calculate the probability that the mean weight of the 12 sacks is less than 10 kg .
  2. The weight of dry cat food in a pouch can also be modelled by a normal distribution. The contents, \(x\) grams, of each of a random sample of 40 pouches were weighed. Subsequent analysis of these weights gave $$\bar { x } = 304.6 \quad \text { and } \quad s = 5.37$$
    1. Construct a \(99 \%\) confidence interval for the mean weight of dry cat food in a pouch. Give the limits to one decimal place.
    2. Comment, with justification, on each of the following two claims. Claim 1: The mean weight of dry cat food in a pouch is more than 300 grams.
      Claim 2: All pouches contain more than 300 grams of dry cat food.
      [0pt] [4 marks]
      \includegraphics[max width=\textwidth, alt={}]{6fbb8891-e6de-42fe-a195-ea643552fdcf-24_2288_1705_221_155}
AQA S2 2009 January Q1
11 marks Standard +0.3
1 Fortune High School gave its students a wider choice of subjects to study. The table shows the number of students, of each gender, who chose to study each of the additional subjects during the school year 2007/08.
\cline { 2 - 5 } \multicolumn{1}{c|}{}Bulgarian
Climate
Change
FinancePolish
Male7312540
Female2242219
Assuming that these data form a random sample, use a \(\chi ^ { 2 }\) test, at the \(10 \%\) level of significance, to test whether the choice of these subjects is independent of gender.
(11 marks)
AQA S2 2009 January Q2
9 marks Standard +0.3
2 A group of estate agents in a particular area claimed that, after the introduction of a new search procedure at the Land Registry, the mean completion time for the purchase of a house in the area had not changed from 8 weeks.
  1. A random sample of 9 house purchases in the area revealed that their completion times, in weeks, were as follows. $$\begin{array} { l l l l l l l l l } 6 & 7 & 10 & 12 & 9 & 11 & 7 & 8 & 14 \end{array}$$ Assuming that completion times in the area are normally distributed with standard deviation 2.5 weeks, test, at the \(5 \%\) level of significance, the group's claim. (7 marks)
  2. It was subsequently discovered that, after the introduction of the new search procedure at the Land Registry, the mean completion time for the purchase of a house in the area remained at 8 weeks. Indicate whether a Type I error, a Type II error or neither has occurred in carrying out your hypothesis test in part (a). Give a reason for your answer.
    (2 marks)
AQA S2 2009 January Q3
14 marks Moderate -0.3
3 Joe owns two garages, Acefit and Bestjob, each specialising in the fitting of the latest satellite navigation device. The daily demand, \(X\), for the device at Acefit garage may be modelled by a Poisson distribution with mean 3.6. The daily demand, \(Y\), for the device at Bestjob garage may be modelled by a Poisson distribution with mean 4.4.
  1. Calculate:
    1. \(\mathrm { P } ( X \leqslant 3 )\);
    2. \(\quad \mathrm { P } ( Y = 5 )\).
  2. The total daily demand for the device at Joe's two garages is denoted by \(T\).
    1. Write down the distribution of \(T\), stating any assumption that you make.
    2. Determine \(\mathrm { P } ( 6 < T < 12 )\).
    3. Calculate the probability that the total demand for the device will exceed 14 on each of two consecutive days. Give your answer to one significant figure.
    4. Determine the minimum number of devices that Joe should have in stock if he is to meet his total demand on at least \(99 \%\) of days.
AQA S2 2009 January Q4
6 marks Moderate -0.3
4 The continuous random variable \(X\) has the cumulative distribution function $$\mathrm { F } ( x ) = \left\{ \begin{array} { c c } 0 & x < - c \\ \frac { x + c } { 4 c } & - c \leqslant x \leqslant 3 c \\ 1 & x > 3 c \end{array} \right.$$ where \(c\) is a positive constant.
  1. Determine \(\mathrm { P } \left( - \frac { 3 c } { 4 } < X < \frac { 3 c } { 4 } \right)\).
  2. Show that the probability density function, \(\mathrm { f } ( x )\), of \(X\) is $$f ( x ) = \left\{ \begin{array} { c c } \frac { 1 } { 4 c } & - c \leqslant x \leqslant 3 c \\ 0 & \text { otherwise } \end{array} \right.$$
  3. Hence, or otherwise, find expressions, in terms of \(c\), for:
    1. \(\mathrm { E } ( X )\);
    2. \(\operatorname { Var } ( X )\).
AQA S2 2009 January Q5
13 marks Standard +0.3
5 Jane, who supplies fruit to a jam manufacturer, knows that the weight of fruit in boxes that she sends to the manufacturer can be modelled by a normal distribution with unknown mean, \(\mu\) grams, and unknown standard deviation, \(\sigma\) grams. Jane selects a random sample of 16 boxes and, using the \(t\)-distribution, calculates correctly that a \(98 \%\) confidence interval for \(\mu\) is \(( 70.65,80.35 )\).
    1. Show that the sample mean is 75.5 grams.
    2. Find the width of the confidence interval.
    3. Calculate an estimate of the standard error of the mean.
    4. Hence, or otherwise, show that an unbiased estimate of \(\sigma ^ { 2 }\) is 55.6 , correct to three significant figures.
  2. Jane decides that the width of the \(98 \%\) confidence interval is too large. Construct a \(95 \%\) confidence interval for \(\mu\), based on her sample of 16 boxes.
  3. Jane is informed that the manufacturer would prefer the confidence interval to have a width of at most 5 grams.
    1. Write down a confidence interval for \(\mu\), again based on Jane's sample of 16 boxes, which has a width of 5 grams.
    2. Determine the percentage confidence level for your interval in part (c)(i).
AQA S2 2009 January Q6
10 marks Standard +0.3
6 A small supermarket has a total of four checkouts, at least one of which is always staffed. The probability distribution for \(R\), the number of checkouts that are staffed at any given time, is $$\mathrm { P } ( R = r ) = \left\{ \begin{array} { c l } \frac { 2 } { 3 } \left( \frac { 1 } { 3 } \right) ^ { r - 1 } & r = 1,2,3 \\ k & r = 4 \end{array} \right.$$
  1. Show that \(k = \frac { 1 } { 27 }\).
  2. Find the probability that, at any given time, there will be at least 3 checkouts that are staffed.
  3. It is suggested that the total number of customers, \(C\), that can be served at the checkouts per hour may be modelled by $$C = 27 R + 5$$ Find:
    1. \(\mathrm { E } ( C )\);
    2. the standard deviation of \(C\).
AQA S2 2009 January Q7
12 marks Standard +0.3
7 The continuous random variable \(X\) has the probability density function given by $$f ( x ) = \left\{ \begin{array} { c c } \frac { 1 } { 16 } x ^ { 3 } & 0 \leqslant x \leqslant 2 \\ \frac { 1 } { 6 } ( 5 - x ) & 2 \leqslant x \leqslant 5 \\ 0 & \text { otherwise } \end{array} \right.$$
  1. Sketch the graph of f.
  2. Prove that the cumulative distribution function of \(X\) for \(2 \leqslant x \leqslant 5\) can be written in the form $$\mathrm { F } ( x ) = 1 - \frac { 1 } { 12 } ( 5 - x ) ^ { 2 }$$
  3. Hence, or otherwise, determine \(\mathrm { P } ( X \geqslant 3 \mid X \leqslant 4 )\).
AQA S2 2007 June Q1
10 marks Standard +0.3
1 Two groups of patients, suffering from the same medical condition, took part in a clinical trial of a new drug. One of the groups was given the drug whilst the other group was given a placebo, a drug that has no physical effect on their medical condition. The table shows the number of patients in each group and whether or not their condition improved.
\cline { 2 - 3 } \multicolumn{1}{c|}{}PlaceboDrug
Condition improved2046
Condition did not improve5529
Conduct a \(\chi ^ { 2 }\) test, at the \(5 \%\) level of significance, to determine whether the condition of the patients at the conclusion of the trial is associated with the treatment that they were given.
(10 marks)
AQA S2 2007 June Q2
10 marks Moderate -0.8
2 The number of telephone calls per day, \(X\), received by Candice may be modelled by a Poisson distribution with mean 3.5. The number of e-mails per day, \(Y\), received by Candice may be modelled by a Poisson distribution with mean 6.0.
  1. For any particular day, find:
    1. \(\mathrm { P } ( X = 3 )\);
    2. \(\quad \mathrm { P } ( Y \geqslant 5 )\).
    1. Write down the distribution of \(T\), the total number of telephone calls and e-mails per day received by Candice.
    2. Determine \(\mathrm { P } ( 7 \leqslant T \leqslant 10 )\).
    3. Hence calculate the probability that, on each of three consecutive days, Candice will receive a total of at least 7 but at most 10 telephone calls and e-mails.
      (2 marks)
AQA S2 2007 June Q3
8 marks Standard +0.3
3 David is the professional coach at the golf club where Becki is a member. He claims that, after having a series of lessons with him, the mean number of putts that Becki takes per round of golf will reduce from her present mean of 36 . After having the series of lessons with David, Becki decides to investigate his claim.
She therefore records, for each of a random sample of 50 rounds of golf, the number of putts, \(x\), that she takes to complete the round. Her results are summarised below, where \(\bar { x }\) denotes the sample mean. $$\sum x = 1730 \quad \text { and } \quad \sum ( x - \bar { x } ) ^ { 2 } = 784$$ Using a \(z\)-test and the \(1 \%\) level of significance, investigate David's claim.
AQA S2 2007 June Q4
7 marks Moderate -0.8
4 Students are each asked to measure the distance between two points to the nearest tenth of a metre.
  1. Given that the rounding error, \(X\) metres, in these measurements has a rectangular distribution, explain why its probability density function is $$f ( x ) = \left\{ \begin{array} { c c } 10 & - 0.05 < x \leqslant 0.05 \\ 0 & \text { otherwise } \end{array} \right.$$
  2. Calculate \(\mathrm { P } ( - 0.01 < X < 0.02 )\).
  3. Find the mean and the standard deviation of \(X\).
AQA S2 2007 June Q5
10 marks Standard +0.3
5 Members of a residents' association are concerned about the speeds of cars travelling through their village. They decide to record the speed, in mph , of each of a random sample of 10 cars travelling through their village, with the following results: $$\begin{array} { l l l l l l l l l l } 33 & 27 & 34 & 30 & 48 & 35 & 34 & 33 & 43 & 39 \end{array}$$
  1. Construct a \(99 \%\) confidence interval for \(\mu\), the mean speed of cars travelling through the village, stating any assumption that you make.
  2. Comment on the claim that a 30 mph speed limit is being adhered to by most motorists.
    (3 marks)
AQA S2 2007 June Q6
12 marks Standard +0.8
6 The continuous random variable \(X\) has the probability density function given by $$f ( x ) = \left\{ \begin{array} { c c } 3 x ^ { 2 } & 0 < x \leqslant 1 \\ 0 & \text { otherwise } \end{array} \right.$$
  1. Determine:
    1. \(\mathrm { E } \left( \frac { 1 } { X } \right)\);
      (3 marks)
    2. \(\operatorname { Var } \left( \frac { 1 } { X } \right)\).
  2. Hence, or otherwise, find the mean and the variance of \(\left( \frac { 5 + 2 X } { X } \right)\).
AQA S2 2007 June Q7
7 marks Moderate -0.8
7 On a multiple choice examination paper, each question has five alternative answers given, only one of which is correct. For each question, candidates gain 4 marks for a correct answer but lose 1 mark for an incorrect answer.
  1. James guesses the answer to each question.
    1. Copy and complete the following table for the probability distribution of \(X\), the number of marks obtained by James for each question.
      \(\boldsymbol { x }\)4- 1
      \(\mathbf { P } ( \boldsymbol { X } = \boldsymbol { x } )\)
    2. Hence find \(\mathrm { E } ( X )\).
  2. Karen is able to eliminate two of the incorrect answers from the five alternative answers given for each question before guessing the answer from those remaining. Given that the examination paper contains 24 questions, calculate Karen's expected total mark.
AQA S2 2007 June Q8
11 marks Moderate -0.3
8 A jam producer claims that the mean weight of jam in a jar is 230 grams.
  1. A random sample of 8 jars is selected and the weight of jam in each jar is determined. The results, in grams, are $$\begin{array} { l l l l l l l l } 220 & 228 & 232 & 219 & 221 & 223 & 230 & 229 \end{array}$$ Assuming that the weight of jam in a jar is normally distributed, test, at the \(5 \%\) level of significance, the jam producer's claim.
  2. It is later discovered that the mean weight of jam in a jar is indeed 230 grams. Indicate whether a Type I error, a Type II error or neither has occurred in carrying out the hypothesis test in part (a). Give a reason for your answer.
AQA S2 2009 June Q1
6 marks Moderate -0.3
1 A machine fills bottles with bleach. The volume, in millilitres, of bleach dispensed by the machine into a bottle may be modelled by a normal distribution with mean \(\mu\) and standard deviation 8 . A recent inspection indicated that the value of \(\mu\) was 768 . Yvonne, the machine's operator, claims that this value has not subsequently changed. Zara, the quality control supervisor, records the volume of bleach in each of a random sample of 18 bottles filled by the machine and calculates their mean to be 764.8 ml . Test, at the \(5 \%\) level of significance, Yvonne's claim that the mean volume of bleach dispensed by the machine has not changed from 768 ml .
AQA S2 2009 June Q2
14 marks Moderate -0.3
2 John works from home. The number of business letters, \(X\), that he receives on a weekday may be modelled by a Poisson distribution with mean 5.0. The number of private letters, \(Y\), that he receives on a weekday may be modelled by a Poisson distribution with mean 1.5.
  1. Find, for a given weekday:
    1. \(\mathrm { P } ( X < 4 )\);
    2. \(\quad \mathrm { P } ( Y = 4 )\).
    1. Assuming that \(X\) and \(Y\) are independent random variables, determine the probability that, on a given weekday, John receives a total of more than 5 business and private letters.
    2. Hence calculate the probability that John receives a total of more than 5 business and private letters on at least 7 out of 8 given weekdays.
  3. The numbers of letters received by John's neighbour, Brenda, on 10 consecutive weekdays are $$\begin{array} { l l l l l l l l l l } 15 & 8 & 14 & 7 & 6 & 8 & 2 & 8 & 9 & 3 \end{array}$$
    1. Calculate the mean and the variance of these data.
    2. State, giving a reason based on your answers to part (c)(i), whether or not a Poisson distribution might provide a suitable model for the number of letters received by Brenda on a weekday.
AQA S2 2009 June Q3
12 marks Standard +0.3
3 A sample survey, conducted to determine the attitudes of residents to a proposed reorganisation of local schools, gave the following results.
Against reorganisationNot against reorganisation
\multirow{5}{*}{Age of resident}16-1792
18-211710
22-4911590
50-654134
Over 6534
Use a \(\chi ^ { 2 }\) test, at the \(5 \%\) level of significance, to determine whether there is an association between the ages of residents and their attitudes to the proposed reorganisation of local schools.
AQA S2 2009 June Q4
12 marks Standard +0.3
4 The continuous random variable \(X\) has probability density function given by $$f ( x ) = \left\{ \begin{array} { c c } \frac { 1 } { 2 } & 0 \leqslant x \leqslant 1 \\ \frac { 3 - x } { 4 } & 1 \leqslant x \leqslant 3 \\ 0 & \text { otherwise } \end{array} \right.$$
  1. Sketch the graph of f.
  2. Explain why the value of \(\eta\), the median of \(X\), is 1 .
  3. Show that the value of \(\mu\), the mean of \(X\), is \(\frac { 13 } { 12 }\).
  4. Find \(\mathrm { P } ( X < 3 \mu - \eta )\).
AQA S2 2009 June Q5
15 marks Moderate -0.3
5 Joanne has 10 identically-shaped discs, of which 1 is blue, 2 are green, 3 are yellow and 4 are red. She places the 10 discs in a bag and asks her friend David to play a game by selecting, at random and without replacement, two discs from the bag.
  1. Show that:
    1. the probability that the two discs selected are the same colour is \(\frac { 2 } { 9 }\);
    2. the probability that exactly one of the two discs selected is blue is \(\frac { 1 } { 5 }\).
  2. Using the discs, Joanne plays the game with David, under the following conditions: If the two discs selected by David are the same colour, she will pay him 135p. If exactly one of the two discs selected by David is blue, she will pay him 145p. Otherwise David will pay Joanne 45p.
    1. When a game is played, \(X\) is the amount, in pence, won by David. Construct the probability distribution for \(X\), in the form of a table.
    2. Show that \(\mathrm { E } ( X ) = 33\).
  3. Joanne modifies the game so that the amount per game, \(Y\) pence, that she wins may be modelled by $$Y = 104 - 3 X$$
    1. Determine how much Joanne would expect to win if the game is played 100 times.
    2. Calculate the standard deviation of \(Y\), giving your answer to the nearest 1 p .
AQA S2 2009 June Q6
16 marks Standard +0.3
6 Bishen believes that the mean weight of boxes of black peppercorns is 45 grams. Abi, thinking that this is not the case, weighs, in grams, a random sample of 8 boxes of black peppercorns, with the following results. $$\begin{array} { l l l l l l l l } 44 & 44 & 43 & 46 & 42 & 40 & 43 & 46 \end{array}$$
    1. Construct a \(95 \%\) confidence interval for the mean weight of boxes of black peppercorns, stating any assumption that you make.
    2. Comment on Bishen's belief.
    1. Abi claims that the mean weight of boxes of black peppercorns is less than 45 grams. Test this claim at the \(5 \%\) level of significance.
    2. If Bishen's belief is true, state, with a reason, what type of error, if any, may have occurred when conclusions to the test in part (b)(i) were drawn.
      (2 marks)
AQA S3 2006 June Q1
8 marks Moderate -0.3
1 A council claims that 80 per cent of households are generally satisfied with the services it provides. A random sample of 250 households shows that 209 are generally satisfied with the council's provision of services.
  1. Construct an approximate \(95 \%\) confidence interval for the proportion of households that are generally satisfied with the council's provision of services.
  2. Hence comment on the council's claim.
AQA S3 2006 June Q2
7 marks Standard +0.3
2 The table below shows the heart rates, \(x\) beats per minute, and the systolic blood pressures, \(y\) milligrams of mercury, of a random sample of 10 patients undergoing kidney dialysis.
Patient\(\mathbf { 1 }\)\(\mathbf { 2 }\)\(\mathbf { 3 }\)\(\mathbf { 4 }\)\(\mathbf { 5 }\)\(\mathbf { 6 }\)\(\mathbf { 7 }\)\(\mathbf { 8 }\)\(\mathbf { 9 }\)\(\mathbf { 1 0 }\)
\(\boldsymbol { x }\)838688929498101111115121
\(\boldsymbol { y }\)157172161154171169179180192182
  1. Calculate the value of the product moment correlation coefficient for these data.
  2. Assuming that these data come from a bivariate normal distribution, investigate, at the \(1 \%\) level of significance, the claim that, for patients undergoing kidney dialysis, there is a positive correlation between heart rate and systolic blood pressure.