Questions — AQA AS Paper 2 (137 questions)

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All questions AEA AS Paper 1 AS Paper 2 AS Pure C1 C12 C2 C3 C34 C4 CP AS CP1 CP2 D1 D2 F1 F2 F3 FD1 FD1 AS FD2 FD2 AS FM1 FM1 AS FM2 FM2 AS FP1 FP1 AS FP2 FP2 AS FP3 FS1 FS1 AS FS2 FS2 AS Further AS Paper 1 Further AS Paper 2 Discrete Further AS Paper 2 Mechanics Further AS Paper 2 Statistics Further Additional Pure Further Additional Pure AS Further Discrete Further Discrete AS Further Extra Pure Further Mechanics Further Mechanics A AS Further Mechanics AS Further Mechanics B AS Further Mechanics Major Further Mechanics Minor Further Numerical Methods Further Paper 1 Further Paper 2 Further Paper 3 Further Paper 3 Discrete Further Paper 3 Mechanics Further Paper 3 Statistics Further Paper 4 Further Pure Core Further Pure Core 1 Further Pure Core 2 Further Pure Core AS Further Pure with Technology Further Statistics Further Statistics A AS Further Statistics AS Further Statistics B AS Further Statistics Major Further Statistics Minor Further Unit 1 Further Unit 2 Further Unit 3 Further Unit 4 Further Unit 5 Further Unit 6 H240/01 H240/02 H240/03 M1 M2 M3 M4 M5 Mechanics 1 P1 P2 P3 P4 PMT Mocks PURE Paper 1 Paper 2 Paper 3 Pure 1 S1 S2 S3 S4 SPS ASFM SPS ASFM Mechanics SPS ASFM Pure SPS ASFM Statistics SPS FM SPS FM Mechanics SPS FM Pure SPS FM Statistics SPS SM SPS SM Mechanics SPS SM Pure SPS SM Statistics Stats 1 Unit 1 Unit 2 Unit 3 Unit 4
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AQA AS Paper 1 AS Paper 2 C1 C2 C3 C4 D1 D2 FP1 FP2 FP3 Further AS Paper 1 Further AS Paper 2 Discrete Further AS Paper 2 Mechanics Further AS Paper 2 Statistics Further Paper 1 Further Paper 2 Further Paper 3 Discrete Further Paper 3 Mechanics Further Paper 3 Statistics M1 M2 M3 Paper 1 Paper 2 Paper 3 S1 S2 S3 CAIE FP1 FP2 Further Paper 1 Further Paper 2 Further Paper 3 Further Paper 4 M1 M2 P1 P2 P3 S1 S2 Edexcel AEA AS Paper 1 AS Paper 2 C1 C12 C2 C3 C34 C4 CP AS CP1 CP2 D1 D2 F1 F2 F3 FD1 FD1 AS FD2 FD2 AS FM1 FM1 AS FM2 FM2 AS FP1 FP1 AS FP2 FP2 AS FP3 FS1 FS1 AS FS2 FS2 AS M1 M2 M3 M4 M5 P1 P2 P3 P4 PMT Mocks Paper 1 Paper 2 Paper 3 S1 S2 S3 S4 OCR AS Pure C1 C2 C3 C4 D1 D2 FD1 AS FM1 AS FP1 FP1 AS FP2 FP3 FS1 AS Further Additional Pure Further Additional Pure AS Further Discrete Further Discrete AS Further Mechanics Further Mechanics AS Further Pure Core 1 Further Pure Core 2 Further Pure Core AS Further Statistics Further Statistics AS H240/01 H240/02 H240/03 M1 M2 M3 M4 Mechanics 1 PURE Pure 1 S1 S2 S3 S4 Stats 1 OCR MEI AS Paper 1 AS Paper 2 C1 C2 C3 C4 D1 D2 FP1 FP2 FP3 Further Extra Pure Further Mechanics A AS Further Mechanics B AS Further Mechanics Major Further Mechanics Minor Further Numerical Methods Further Pure Core Further Pure Core AS Further Pure with Technology Further Statistics A AS Further Statistics B AS Further Statistics Major Further Statistics Minor M1 M2 M3 M4 Paper 1 Paper 2 Paper 3 S1 S2 S3 S4 SPS SPS ASFM SPS ASFM Mechanics SPS ASFM Pure SPS ASFM Statistics SPS FM SPS FM Mechanics SPS FM Pure SPS FM Statistics SPS SM SPS SM Mechanics SPS SM Pure SPS SM Statistics WJEC Further Unit 1 Further Unit 2 Further Unit 3 Further Unit 4 Further Unit 5 Further Unit 6 Unit 1 Unit 2 Unit 3 Unit 4
AQA AS Paper 2 2018 June Q1
1 marks
1 Given that \(\frac { \mathrm { d } y } { \mathrm {~d} x } = \frac { 1 } { 6 x ^ { 2 } }\) find \(y\).
Circle your answer.
[0pt] [1 mark]
\(\frac { - 1 } { 3 x ^ { 3 } } + c\)
\(\frac { 1 } { 2 x ^ { 3 } } + c\)
\(\frac { - 1 } { 6 x } + c\)
\(\frac { - 1 } { 3 x } + c\)
AQA AS Paper 2 2018 June Q2
2 Figure 1 shows \(y = \mathrm { f } ( x )\). \begin{figure}[h]
\captionsetup{labelformat=empty} \caption{Figure 1} \includegraphics[alt={},max width=\textwidth]{8d9ace4b-0c15-48bd-9b0d-302f57ea9759-03_307_327_450_379}
\end{figure} Which figure below shows \(y = \mathrm { f } ( 2 x )\) ?
Tick one box. \begin{figure}[h]
\captionsetup{labelformat=empty} \caption{Figure 2} \includegraphics[alt={},max width=\textwidth]{8d9ace4b-0c15-48bd-9b0d-302f57ea9759-03_309_332_1119_374}
\end{figure} Figure 3 Figure 4 Figure 5 \begin{figure}[h]
\captionsetup{labelformat=empty} \caption{Figure 3} \includegraphics[alt={},max width=\textwidth]{8d9ace4b-0c15-48bd-9b0d-302f57ea9759-03_314_332_1119_719}
\end{figure} \begin{figure}[h]
\captionsetup{labelformat=empty} \caption{Figure 2} \includegraphics[alt={},max width=\textwidth]{8d9ace4b-0c15-48bd-9b0d-302f57ea9759-03_117_127_1512_799}
\end{figure} □ \begin{figure}[h]
\captionsetup{labelformat=empty} \caption{Figure 4} \includegraphics[alt={},max width=\textwidth]{8d9ace4b-0c15-48bd-9b0d-302f57ea9759-03_314_346_1110_1064}
\end{figure} \begin{figure}[h]
\captionsetup{labelformat=empty} \caption{Figure 5} \includegraphics[alt={},max width=\textwidth]{8d9ace4b-0c15-48bd-9b0d-302f57ea9759-03_321_341_1110_1402}
\end{figure} □
AQA AS Paper 2 2018 June Q3
3 Express as a single logarithm $$2 \log _ { a } 6 - \log _ { a } 3$$
AQA AS Paper 2 2018 June Q4
8 marks
4 Solve the equation \(\tan ^ { 2 } 2 \theta - 3 = 0\) giving all the solutions for \(0 ^ { \circ } \leq \theta \leq 360 ^ { \circ }\)
[0pt] [4 marks]
\(5 \quad \mathrm { f } ^ { \prime } ( x ) = \left( 2 x - \frac { 3 } { x } \right) ^ { 2 }\) and \(\mathrm { f } ( 3 ) = 2\) Find \(\mathrm { f } ( x )\).
[0pt] [4 marks]
AQA AS Paper 2 2018 June Q6
6 Points \(A ( - 7 , - 7 ) , B ( 8 , - 1 ) , C ( 4,9 )\) and \(D ( - 11,3 )\) are the vertices of a quadrilateral \(A B C D\). 6
  1. Prove that \(A B C D\) is a rectangle.
    6
  2. Find the area of \(A B C D\).
AQA AS Paper 2 2018 June Q7
7
  1. Express \(2 x ^ { 2 } - 5 x + k\) in the form \(a ( x - b ) ^ { 2 } + c\)
    7
  2. Find the values of \(k\) for which the curve \(y = 2 x ^ { 2 } - 5 x + k\) does not intersect the line \(y = 3\)
AQA AS Paper 2 2018 June Q8
3 marks
8 A circle of radius 6 passes through the points \(( 0,0 )\) and \(( 0,10 )\). 8
  1. Sketch the two possible positions of the circle.
    \includegraphics[max width=\textwidth, alt={}, center]{8d9ace4b-0c15-48bd-9b0d-302f57ea9759-08_892_1244_742_376}
    \multirow{3}{*}{}
    Show that \(\tan ^ { 2 } 15 ^ { \circ }\) can be written in the form \(a + b \sqrt { 3 }\), where \(a\) and \(b\) are integers.
    Fully justify your answer.
    [0pt] [3 marks]
AQA AS Paper 2 2018 June Q9
9 It is given that \(\cos 15 ^ { \circ } = \frac { 1 } { 2 } \sqrt { 2 + \sqrt { 3 } }\) and \(\sin 15 ^ { \circ } = \frac { 1 } { 2 } \sqrt { 2 - \sqrt { 3 } }\)
AQA AS Paper 2 2018 June Q10
10 In the binomial expansion of \(( 1 + x ) ^ { n }\), where \(n \geq 4\), the coefficient of \(x ^ { 4 }\) is \(1 \frac { 1 } { 2 }\) times the sum of the coefficients of \(x ^ { 2 }\) and \(x ^ { 3 }\) Find the value of \(n\).
AQA AS Paper 2 2018 June Q11
11 Rakti makes open-topped cylindrical planters out of thin sheets of galvanised steel. bends a rectangle of steel to make an open cylinder and welds the joint. She She bends this cylinder to the circumference of a circular base then welds this cylinder to the circumference of a circular base.
\includegraphics[max width=\textwidth, alt={}, center]{8d9ace4b-0c15-48bd-9b0d-302f57ea9759-12_552_524_497_753} The planter must have a capacity of \(8000 \mathrm {~cm} ^ { 3 }\) Welding is time consuming, so Rakti wants the total length of weld to be a minimum.
Calculate the radius, \(r\), and height, \(h\), of a planter which requires the minimum total length of weld. Fully justify your answers, giving them to an appropriate degree of accuracy.
AQA AS Paper 2 2018 June Q12
1 marks
12 Trees in a forest may be affected by one of two types of fungal disease, but not by both. The number of trees affected by disease \(\mathrm { A } , n _ { \mathrm { A } }\), can be modelled by the formula $$n _ { \mathrm { A } } = a \mathrm { e } ^ { 0.1 t }$$ where \(t\) is the time in years after 1 January 2017.
The number of trees affected by disease \(\mathrm { B } , n _ { \mathrm { B } }\), can be modelled by the formula $$n _ { \mathrm { B } } = b \mathrm { e } ^ { 0.2 t }$$ On 1 January 2017 a total of 290 trees were affected by a fungal disease.
On 1 January 2018 a total of 331 trees were affected by a fungal disease.
12
  1. Show that \(b = 90\), to the nearest integer, and find the value of \(a\).
    12
  		2. Estimate the total number of trees that will be affected by a fungal disease on 1 January 2020.
    [1 mark]
    12
  3. Find the year in which the number of trees affected by disease B will first exceed the number affected by disease A.
    12
  4. Comment on the long-term accuracy of the model.
AQA AS Paper 2 2018 June Q13
13 The table below shows the probability distribution for a discrete random variable \(X\).
\(\boldsymbol { x }\)01234 or more
\(\mathbf { P } ( \boldsymbol { X } = \boldsymbol { x } )\)0.350.25\(k\)0.140.1
Find the value of \(k\). Circle your answer.
0.140 .160 .1801
AQA AS Paper 2 2018 June Q14
1 marks
14 Given that \(\sum x = 364 , \sum x ^ { 2 } = 19412 , n = 10\), find \(\sigma\), the standard deviation of \(X\). Circle your answer.
[0pt] [1 mark]
24.844 .1616 .21941 .2
AQA AS Paper 2 2018 June Q15
15 Nicola, a darts player, is practising hitting the bullseye. She knows from previous experience that she has a probability of 0.3 of hitting the bullseye with each dart. Nicola throws eight practice darts.
15
  1. Using a binomial distribution, calculate the probability that she will hit the bullseye three or more times. 15
  2. Nicola throws eight practice darts on three different occasions. Calculate the probability that she will hit the bullseye three or more times on all three occasions.
    15
  3. State two assumptions that are necessary for the distribution you have used in part (a) to be valid.
AQA AS Paper 2 2018 June Q16
16 Kevin is the Principal of a college. He wishes to investigate types of transport used by students to travel to college.
There are 3200 students in the college and Kevin decides to survey 60 of them.
Describe how he could obtain a simple random sample of size 60 from the 3200 students.
The table below is an extract from the Large Data Set, showing the purchased quantities of fats and oils for the South East of England in 2014.
Description
Purchased
quantity
Butter42
Soft margarine16
Olive oil17
Other vegetable and salad oils28
Kim claims that more olive oil was purchased in the South East than soft margarine.
Explain why Kim may be incorrect.
AQA AS Paper 2 2018 June Q18
18 Jennie is a piano teacher who teaches nine pupils. She records how many hours per week they practice the piano along with their most recent practical exam score.
StudentPractice (hours per week)Practical exam score (out of 100)
Donovan5064
Vazquez671
Higgins355
Begum2.547
Collins180
Coldbridge461
Nedbalek4.565
Carter883
White1192
She plots a scatter diagram of this data, as shown below.
\includegraphics[max width=\textwidth, alt={}, center]{8d9ace4b-0c15-48bd-9b0d-302f57ea9759-20_862_1516_1434_262} 18
  1. Identify two possible outliers by name, giving a possible explanation for the position on the scatter diagram of each outlier. First outlier \(\_\_\_\_\)
    Possible reason \(\_\_\_\_\)
    Second outlier \(\_\_\_\_\)
    Possible reason \(\_\_\_\_\)
    18
  2. Jennie discards the two outliers.
    18
    1. Describe the correlation shown by the scatter diagram for the remaining points.
      18
  4. (ii) Interpret this correlation in the context of the question.
    In the past, he has found that \(70 \%\) of all seeds successfully germinate and grow into cucumber plants. He decides to try out a new brand of seed.
    The producer of this brand claims that these seeds are more likely to successfully germinate than other brands of seeds. Martin sows 20 of this new brand of seed and 18 successfully germinate.
    Carry out a hypothesis test at the \(5 \%\) level of significance to investigate the producer's claim.
AQA AS Paper 2 2018 June Q19
19 Martin grows cucumbers from seed.
AQA AS Paper 2 2019 June Q1
1 Find the gradient of the curve \(y = \mathrm { e } ^ { - 3 x }\) at the point where it crosses the \(y\)-axis. Circle your answer.
\(\begin{array} { l l l } - 3 & - 1 & 1 \end{array}\)
AQA AS Paper 2 2019 June Q2
2 Find the centre of the circle \(x ^ { 2 } + y ^ { 2 } + 4 x - 6 y = 12\)
Tick ( \(\checkmark\) ) one box.
(-2, -3) □
(-2, 3) □
\(( 2 , - 3 )\) □
\(( 2,3 )\) □
AQA AS Paper 2 2019 June Q3
3 It is given that \(\sin \theta = - 0.1\) and \(180 ^ { \circ } < \theta < 270 ^ { \circ }\) Find the exact value of \(\cos \theta\)
AQA AS Paper 2 2019 June Q4
4 Show that, for \(x > 0\) $$\log _ { 10 } \frac { x ^ { 4 } } { 100 } + \log _ { 10 } 9 x - \log _ { 10 } x ^ { 3 } \equiv 2 \left( - 1 + \log _ { 10 } 3 x \right)$$
AQA AS Paper 2 2019 June Q5
5 A triangular prism has a cross section \(A B C\) as shown in the diagram below. Angle \(A B C = 25 ^ { \circ }\)
Angle \(A C B = 30 ^ { \circ }\)
\(B C = 40\) millimetres. The length of the prism is 300 millimetres.
Calculate the volume of the prism, giving your answer to three significant figures.
AQA AS Paper 2 2019 June Q6
6 A curve has equation \(y = \frac { 2 } { x \sqrt { x } }\)
\includegraphics[max width=\textwidth, alt={}, center]{b45dc98e-1699-47c9-9228-5abe0e5c9195-05_508_549_420_744} The region enclosed between the curve, the \(x\)-axis and the lines \(x = 1\) and \(x = a\) has area 3 units. Given that \(a > 1\), find the value of \(a\).
Fully justify your answer.
AQA AS Paper 2 2019 June Q7
7 The points \(A ( a , 3 )\) and \(B ( 10,6 )\) lie on a circle.
\(A B\) is a diameter of the circle and passes through the point ( 2,4 )
The circle has equation $$( x - c ) ^ { 2 } + ( y - d ) ^ { 2 } = e$$ where \(c , d\) and \(e\) are rational numbers. Find the values of \(a , c , d\) and \(e\).
AQA AS Paper 2 2019 June Q8
8 A curve has equation $$y = x ^ { 3 } + p x ^ { 2 } + q x - 45$$ The curve passes through point \(R ( 2,3 )\)
The gradient of the curve at \(R\) is 8
8
  1. Find the value of \(p\) and the value of \(q\).
    8
  2. Calculate the area enclosed between the normal to the curve at \(R\) and the coordinate 8
  3. axes.
    \(9 \quad\) A curve \(C\) has equation \(y = \mathrm { f } ( x )\) where $$f ( x ) = ( x - 2 ) ( x - 3 ) ^ { 2 }$$