Questions - OCR MEI Paper 2

Use the information above to write down the mean time the operations manager will use in his Normal model for flight times from Liverpool to Magaluf.
Use the information above to find the standard deviation the operations manager will use in his Normal model for flight times from Liverpool to Magaluf, giving your answer correct to 1 decimal place.
Data is available for 452 flights. A flight time of under 2 hours was recorded in 16 of these flights. Use your answers to parts (a) and (b) to determine whether the model is consistent with this data. The operations manager suspects that the mean time for the journey from Magaluf to Liverpool is less than from Liverpool to Magaluf. He collects a random sample of 24 flight times from Magaluf to Liverpool. He finds that the mean flight time is 143.6 minutes.
Use the Normal model used in part (c) to conduct a hypothesis test to determine whether there is evidence at the $1 \%$ level to suggest that the mean flight time from Magaluf to Liverpool is less than the mean flight time from Liverpool to Magaluf.
[0pt]
Identify two ways in which the Normal model for flight times from Liverpool to Magaluf might be adapted to provide a better model for the flight times from Magaluf to Liverpool. [2]

OCR MEI Paper 2 2019 June Q11

11 Fig. 11 shows the graph of $y = x ^ { 2 } - 4 x + x \ln x$. \begin{figure}[h]

\includegraphics[alt={},max width=\textwidth]{95eb3bcc-6d3c-4f7e-9b27-5e046ab57ec5-08_697_463_338_246} \captionsetup{labelformat=empty} \caption{Fig. 11}

\end{figure}

Show that the $x$-coordinate of the stationary point on the curve may be found from the equation $2 x - 3 + \ln x = 0$.
Use an iterative method to find the $x$-coordinate of the stationary point on the curve $y = x ^ { 2 } - 4 x + x \ln x$, giving your answer correct to 4 decimal places.

OCR MEI Paper 2 2019 June Q12

12 The jaguar is a species of big cat native to South America. Records show that 6\% of jaguars are born with black coats. Jaguars with black coats are known as black panthers. Due to deforestation a population of jaguars has become isolated in part of the Amazon basin. Researchers believe that the percentage of black panthers may not be $6 \%$ in this population.

Find the minimum sample size needed to conduct a two-tailed test to determine whether there is any evidence at the $5 \%$ level to suggest that the percentage of black panthers is not $6 \%$. A research team identifies 70 possible sites for monitoring the jaguars remotely. 30 of these sites are randomly selected and cameras are installed. 83 different jaguars are filmed during the evidence gathering period. The team finds that 10 of the jaguars are black panthers.
Conduct a hypothesis test to determine whether the information gathered by the research team provides any evidence at the $5 \%$ level to suggest that the percentage of black panthers in this population is not $6 \%$.

OCR MEI Paper 2 2019 June Q13

13 The population of Melchester is 185207. During a nationwide flu epidemic the number of new cases in Melchester are recorded each day. The results from the first three days are shown in Fig. 13. \begin{table}[h]

Day	1	2	3
Number of new cases	8	24	72

\captionsetup{labelformat=empty} \caption{Fig. 13}

\end{table} A doctor notices that the numbers of new cases on successive days are in geometric progression.

Find the common ratio for this geometric progression. The doctor uses this geometric progression to model the number of new cases of flu in Melchester.
According to the model, how many new cases will there be on day 5?
Find a formula for the total number of cases from day 1 to day $n$ inclusive according to this model, simplifying your answer.
Determine the maximum number of days for which the model could be viable in Melchester.
State, with a reason, whether it is likely that the model will be viable for the number of days found in part (d).

OCR MEI Paper 2 2019 June Q14

14 The pre-release material includes data concerning crude death rates in different countries of the world. Fig. 14.1 shows some information concerning crude death rates in countries in Europe and in Africa. \begin{table}[h]

	Europe	Africa
$n$	48	56
minimum	6.28	3.58
lower quartile	8.50	7.31
median	9.53	8.71
upper quartile	11.41	11.93
maximum	14.46	14.89

\captionsetup{labelformat=empty} \caption{Fig. 14.1}

\end{table}

Use your knowledge of the large data set to suggest a reason why the statistics in Fig. 14.1 refer to only 48 of the 51 European countries.
Use the information in Fig. 14.1 to show that there are no outliers in either data set. The crude death rate in Libya is recorded as 3.58 and the population of Libya is recorded as 6411776.
Calculate an estimate of the number of deaths in Libya in a year. The median age in Germany is 46.5 and the crude death rate is 11.42. The median age in Cyprus is 36.1 and the crude death rate is 6.62 .
Explain why a country like Germany, with a higher median age than Cyprus, might also be expected to have a higher crude death rate than Cyprus. Fig. 14.2 shows a scatter diagram of median age against crude death rate for countries in Africa and Fig. 14.3 shows a scatter diagram of median age against crude death rate for countries in Europe. \begin{figure}[h]
\includegraphics[alt={},max width=\textwidth]{95eb3bcc-6d3c-4f7e-9b27-5e046ab57ec5-10_678_1221_1975_248} \captionsetup{labelformat=empty} \caption{Fig. 14.2}
\end{figure} \begin{figure}[h]
\includegraphics[alt={},max width=\textwidth]{95eb3bcc-6d3c-4f7e-9b27-5e046ab57ec5-11_588_1248_223_228} \captionsetup{labelformat=empty} \caption{Fig. 14.3}
\end{figure} The rank correlation coefficient for the data shown in Fig. 14.2 is - 0.281206 .
The rank correlation coefficient for the data shown in Fig. 14.3 is 0.335215 .
Compare and contrast what may be inferred about the relationship between median age and crude death rate in countries in Africa and in countries in Europe.

OCR MEI Paper 2 2022 June Q1

1 Express $\cos \theta + \sqrt { 3 } \sin \theta$ in the form $R \cos ( \theta - \alpha )$, where $R$ and $\alpha$ are exact values to be determined.

OCR MEI Paper 2 2022 June Q2

2 Find the sum of the infinite series $50 + 25 + 12.5 + 6.25 + \ldots$.

OCR MEI Paper 2 2022 June Q3

On the axes in the Printed Answer Booklet, sketch the curve with equation $\mathrm { y } = 3 \times 0.4 ^ { \mathrm { x } }$.
Given that $3 \times 0.4 ^ { x } = 0.8$, determine the value of $x$ correct to 3 significant figures.

OCR MEI Paper 2 2022 June Q4

4 A survey of university students revealed that

$31 \%$ have a part-time job but do not play competitive sport.
$23 \%$ play competitive sport but do not have a part-time job.
$22 \%$ do not play competitive sport and do not have a part-time job.
1. Show this information on a Venn diagram.

A student is selected at random.

Determine the probability that the student plays competitive sport and has a part-time job.

OCR MEI Paper 2 2022 June Q5

5 Tom conjectures that if $n$ is an odd number greater than 1 , then $2 ^ { n } - 1$ is prime.
Find a counter example to disprove Tom's conjecture.
$6 X$ is a continuous random variable such that $X \sim \mathrm {~N} \left( \mu , \sigma ^ { 2 } \right)$.
On the sketch of this Normal distribution in the Printed Answer Booklet, shade the area bounded by the curve, the $x$-axis and the lines $x = \mu \pm \sigma$.

OCR MEI Paper 2 2022 June Q7

2 marks

7 Kareem bought some tomatoes. He recorded the mass of each tomato and displayed the results in a histogram, which is shown below.
\includegraphics[max width=\textwidth, alt={}, center]{57007d39-abb0-475e-9ed8-03021fa1273b-05_1273_1849_363_109} Determine how many tomatoes Kareem bought.
[0pt] [2] Answer all the questions.
Section B (77 marks)

OCR MEI Paper 2 2022 June Q8

8 Ali conducted an investigation into the distances ridden by those members of a cycling club who rode at least 120 km in a training week. She grouped all the distances into intervals of length 10 km and then constructed a cumulative frequency diagram, which is shown below.
\includegraphics[max width=\textwidth, alt={}, center]{57007d39-abb0-475e-9ed8-03021fa1273b-06_1086_1627_587_233}

Explain whether the data Ali used is a sample or a population. The club is taking part in a competition. Eight team members and one reserve are to be selected. The club captain decides that the team members should be those cyclists who rode the furthest during the training week, and that the reserve should be the cyclist who rode the next furthest.
Use the graph to estimate the shortest distance cycled by a team member. The captain's best friend rode 156 km in the training week and was selected as reserve. Ali complained that this was unjustifiable.
Explain whether there is sufficient evidence in the diagram to support Ali's complaint.

OCR MEI Paper 2 2022 June Q9

9 At the beginning of the academic year, all the pupils in year 12 at a college take part in an assessment. Summary statistics for the marks obtained by the 2021 cohort are given below.
$n = 205 \sum x = 23042 \sum x ^ { 2 } = 2591716$ Marks may only be whole numbers, but the Head of Mathematics believes that the distribution of marks may be modelled by a Normal distribution.

Calculate
- The mean mark
- The variance of the marks
- Use your answers to part (a) to write down a possible Normal model for the distribution of marks.
One candidate in the cohort scored less than 105.
Determine whether the model found in part (b) is consistent with this information.
Use the model to calculate an estimate of the number of candidates who scored 115 marks.

OCR MEI Paper 2 2022 June Q10

10 The parametric equations of a curve are $x = 2 + 5 \cos \theta$ and $y = 1 + 5 \sin \theta$, where $0 \leqslant \theta \leqslant 2 \pi$.

Determine the cartesian equation of the curve.
Hence or otherwise, find the equation of the tangent to the curve at the point ( $5 , - 3$ ), giving your answer in the form $\mathrm { ax } + \mathrm { by } + \mathrm { c } = 0$, where $a$, $b$ and $c$ are integers to be determined.

OCR MEI Paper 2 2022 June Q11

11 A die in the form of a dodecahedron has its faces numbered from 1 to 12 . The die is biased so that the probability that a score of 12 is achieved is different from any other score. The probability distribution of $X$, the score on the die, is given in the table in terms of $p$ and $k$, where $0 < p < 1$ and $k$ is a positive integer.

$x$	1	2	3	4	5	6	7	8	9	10	11	12
$\mathrm { P } ( X = x )$	$p$	$p$	$p$	$p$	$p$	$p$	$p$	$p$	$p$	$p$	$p$	$k p$

Sam rolls the die 30 times, Leo rolls the die 60 times and Nina rolls the die 120 times. They each plot their scores on bar line graphs.

Explain whose graph is most likely to give the best representation of the theoretical probability distribution for the score on the die.
Find $p$ in terms of $k$.
Determine, in terms of $k$, the expected number of times Nina rolls a 12 .
Given that Nina rolls a 12 on 32 occasions, calculate an estimate of the value of $k$. Nina rolls the die a further 30 times.
Use your answer to part (d) to calculate an estimate for the probability that she obtains a 12 exactly 8 times in these 30 rolls.

OCR MEI Paper 2 2022 June Q12

12 A retailer sells bags of flour which are advertised as containing 1.5 kg of flour. A trading standards officer is investigating whether there is enough flour in each bag. He collects a random sample and uses software to carry out a hypothesis test at the $5 \%$ level. The analysis is shown in the software printout below.

Distribution		Statistics
Z Test of a Mean
Null Hypothesis $\mu = 1.5$
Alternative Hypothesis < O> ◯ $\neq$
Sample
Mean 1.44
$\sigma 0.24$
N □ 32
Z Test of a Mean
Mean		1.44
$\sigma$		0.24
Result	SE	0.0424
\multirow{3}{*}{}	N	32
	Z	-1.4142
	P	0.0786

State the hypotheses the officer uses in the test, defining any parameters used.
State the distribution used in the analysis.
Carry out the hypothesis test, giving your conclusion in context.

OCR MEI Paper 2 2022 June Q13

13 Records from the 1950s showed that 35\% of human babies were born without wisdom teeth. It is believed that as part of the evolutionary process more babies are now born without wisdom teeth. In a random sample of 140 babies, collected in 2020, a researcher found that 61 were born without wisdom teeth. The researcher made the following statement.
"This shows that the percentage of babies born without wisdom teeth has increased from $35 \%$."

Explain whether this statement can be fully justified.
Conduct a hypothesis test at the $5 \%$ level to determine whether there is any evidence to suggest that more than $35 \%$ of babies are now born without wisdom teeth.

OCR MEI Paper 2 2022 June Q14

5 marks

14 Fig. 14.1 shows the curve with equation $y = \frac { 1 } { 1 + x ^ { 2 } }$, together with 5 rectangles of equal width. \begin{figure}[h]

\includegraphics[alt={},max width=\textwidth]{57007d39-abb0-475e-9ed8-03021fa1273b-10_940_1557_331_246} \captionsetup{labelformat=empty} \caption{Fig. 14.1}

\end{figure} Fig. 14.2 shows the coordinates of the points $\mathrm { A } , \mathrm { B } , \mathrm { C } , \mathrm { D } , \mathrm { E }$ and F .

Point	A	B	C	D	E	F
$x$	0	0.2	0.4	0.6	0.8	1
$y$	1	0.96154	0.86207	0.73529	0.60976	0.5

\section*{Fig. 14.2}

Use the 5 rectangles shown in Fig. 14.1 and the information in Fig. 14.2 to show that a lower bound for $\int _ { 0 } ^ { 1 } \frac { 1 } { 1 + x ^ { 2 } } \mathrm { dx }$ is 0.7337, correct to $\mathbf { 4 }$ decimal places.
[0pt] [2]
Use the 5 rectangles shown in Fig. 14.1 and the information in Fig. 14.2 to calculate an upper bound for $\int _ { 0 } ^ { 1 } \frac { 1 } { 1 + x ^ { 2 } } \mathrm {~d} x$ correct to $\mathbf { 4 }$ decimal places.
[0pt] [2]
Hence find the length of the interval in which your answers to parts (a) and (b) indicate the value of $\int _ { 0 } ^ { 1 } \frac { 1 } { 1 + x ^ { 2 } } \mathrm {~d} x$ lies.
[0pt] [1] Amit uses $n$ rectangles, each of width $\frac { 1 } { n }$, to calculate upper and lower bounds for $\int _ { 0 } ^ { 1 } \frac { 1 } { 1 + x ^ { 2 } } \mathrm {~d} x$, using different values of $n$. His results are shown in Fig. 14.3.
$n$ 10 20 40
upper bound 0.80998 0.79779 0.79162
lower bound 0.75998 0.77279 0.77912
\section*{Fig. 14.3}
Find the length of the smallest interval in which Amit now knows $\int _ { 0 } ^ { 1 } \frac { 1 } { 1 + x ^ { 2 } } \mathrm { dx }$ lies.
Without doing any calculation, explain how Amit could find a smaller interval which contains the value of $\int _ { 0 } ^ { 1 } \frac { 1 } { 1 + x ^ { 2 } } d x$.

OCR MEI Paper 2 2022 June Q15

15 The pre-release material includes information on life expectancy at birth in countries of the world.
Fig. 15.1 shows the data for Liberia, which is in Africa, together with a time series graph. \begin{figure}[h]

\includegraphics[alt={},max width=\textwidth]{57007d39-abb0-475e-9ed8-03021fa1273b-12_721_1284_342_242} \captionsetup{labelformat=empty} \caption{Fig. 15.1}

\end{figure} Sundip uses the LINEST function on a spreadsheet to model life expectancy as a function of calendar year by a straight line. The equation of this line is $L = 0.473 y - 892$, where $L$ is life expectancy at birth and $y$ is calendar year.

Use this model to find an estimate of the life expectancy at birth in Liberia in 1995. According to the model, the life expectancy at birth in Liberia in 2025 is estimated to be 65.83 years.
Explain whether each of these two estimates is likely to be reliable.
Use your knowledge of the pre-release material to explain whether this model could be used to obtain a reliable estimate of the life expectancy at birth in other countries in 1995. \begin{figure}[h]
\captionsetup{labelformat=empty} \caption{Fig. 15.2 shows the life expectancy at birth between 1960 and 2010 for Italy and South Africa.} \includegraphics[alt={},max width=\textwidth]{57007d39-abb0-475e-9ed8-03021fa1273b-13_652_1466_294_230}
\end{figure} Fig. 15.2
Use your knowledge of the pre-release material to
- Explain whether series 1 or series 2 represents the data for Italy.
- Explain how the data for South Africa differs from the data for most developed countries.
Sundip is investigating whether there is an association between the wealth of a country and life expectancy at birth in that country. As part of her analysis she draws a scatter diagram of GDP per capita in US \$ and life expectancy at birth in 2010 for all the countries in Europe for which data is available. She accidentally includes the data for the Central African Republic. The diagram is shown in Fig. 15.3. \section*{Scatter diagram of life expectancy at birth in 2010 against GDP per capita in US \$} \begin{figure}[h]
\includegraphics[alt={},max width=\textwidth]{57007d39-abb0-475e-9ed8-03021fa1273b-14_632_1554_607_244} \captionsetup{labelformat=empty} \caption{Fig. 15.3}
\end{figure}
On the copy of Fig. 15.3 in the Printed Answer Booklet, use your knowledge of the pre-release material to circle the point representing the data for the Central African Republic. Sundip states that as GDP per capita increases, life expectancy at birth increases.
Explain to what extent the information in Fig. 15.3 supports Sundip's statement.

OCR MEI Paper 2 2022 June Q16

16 The equation of a curve is
$y = 6 x ^ { 4 } + 8 x ^ { 3 } - 21 x ^ { 2 } + 12 x - 6$.

In this question you must show detailed reasoning. Determine
- The coordinates of the stationary points on the curve.
- The nature of the stationary points on the curve.
- The $x$-coordinate of the non-stationary point of inflection on the curve.
- On the axes in the Printed Answer Booklet, sketch the curve whose equation is
$$y = 6 x ^ { 4 } + 8 x ^ { 3 } - 21 x ^ { 2 } + 12 x - 6 .$$

OCR MEI Paper 2 2023 June Q1

1 Determine the sum of the infinite geometric series $9 - 3 + 1 - \frac { 1 } { 3 } + \frac { 1 } { 9 } + \ldots$

OCR MEI Paper 2 2023 June Q2

2 The equation of a circle is
$x ^ { 2 } - 12 x + y ^ { 2 } + 8 y + 3 = 0$.

Find the radius of the circle.
State the coordinates of the centre of the circle.

OCR MEI Paper 2 2023 June Q3

3 In this question you must show detailed reasoning.
Find the smallest possible positive integers $m$ and $n$ such that $\left( \frac { 64 } { 49 } \right) ^ { - \frac { 3 } { 2 } } = \frac { m } { n }$.

OCR MEI Paper 2 2023 June Q4

4 A biased octagonal dice has faces numbered from 1 to 8 . The discrete random variable $X$ is the score obtained when the dice is rolled once. The probability distribution of $X$ is shown in the table below.

$x$	1	2	3	4	5	6	7	8
$\mathrm { P } ( X = x )$	$p$	$p$	$p$	$p$	$p$	$p$	$p$	$3 p$

Determine the value of $p$.
Find the probability that a score of at least 4 is obtained when the dice is rolled once. The dice is rolled 30 times.
Determine the probability that a score of 8 occurs exactly twice.

OCR MEI Paper 2 2023 June Q5

5 You are given that $\overrightarrow { \mathrm { OA } } = \binom { 3 } { - 1 }$ and $\overrightarrow { \mathrm { OB } } = \binom { 5 } { - 3 }$. Determine the exact length of $A B$.

\(x\)	1	2	3	4	5	6	7	8	9	10	11	12
\(\mathrm { P } ( X = x )\)	\(p\)	\(p\)	\(p\)	\(p\)	\(p\)	\(p\)	\(p\)	\(p\)	\(p\)	\(p\)	\(p\)	\(k p\)

\(x\)	1	2	3	4	5	6	7	8
\(\mathrm { P } ( X = x )\)	\(p\)	\(p\)	\(p\)	\(p\)	\(p\)	\(p\)	\(p\)	\(3 p\)

	Europe	Africa
\(n\)	48	56
minimum	6.28	3.58
lower quartile	8.50	7.31
median	9.53	8.71
upper quartile	11.41	11.93
maximum	14.46	14.89

Point	A	B	C	D	E	F
\(x\)	0	0.2	0.4	0.6	0.8	1
\(y\)	1	0.96154	0.86207	0.73529	0.60976	0.5

\(n\)	10	20	40
upper bound	0.80998	0.79779	0.79162
lower bound	0.75998	0.77279	0.77912

Questions — OCR MEI Paper 2 (127 questions)

Browse by module

Browse by board

OCR MEI Paper 2 2019 June Q10

OCR MEI Paper 2 2019 June Q11

OCR MEI Paper 2 2019 June Q12

OCR MEI Paper 2 2019 June Q13

OCR MEI Paper 2 2019 June Q14

OCR MEI Paper 2 2022 June Q1

OCR MEI Paper 2 2022 June Q2

OCR MEI Paper 2 2022 June Q3

OCR MEI Paper 2 2022 June Q4

OCR MEI Paper 2 2022 June Q5

OCR MEI Paper 2 2022 June Q7

OCR MEI Paper 2 2022 June Q8

OCR MEI Paper 2 2022 June Q9

OCR MEI Paper 2 2022 June Q10

OCR MEI Paper 2 2022 June Q11

OCR MEI Paper 2 2022 June Q12

OCR MEI Paper 2 2022 June Q13

OCR MEI Paper 2 2022 June Q14

OCR MEI Paper 2 2022 June Q15

OCR MEI Paper 2 2022 June Q16

OCR MEI Paper 2 2023 June Q1

OCR MEI Paper 2 2023 June Q2

OCR MEI Paper 2 2023 June Q3

OCR MEI Paper 2 2023 June Q4

OCR MEI Paper 2 2023 June Q5