Questions — Edexcel (9685 questions)

Browse by module
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 Stats 1 Unit 1 Unit 2 Unit 3 Unit 4
Browse by board
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 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
Sort by: Default | Easiest first | Hardest first
Edexcel Paper 2 2022 June Q16
12 marks Standard +0.3
16. \begin{figure}[h]
\includegraphics[alt={},max width=\textwidth]{824d73c5-525c-4876-ad66-33c8f1664277-44_742_673_248_696} \captionsetup{labelformat=empty} \caption{Figure 6}
\end{figure} Figure 6 shows a sketch of the curve \(C\) with parametric equations $$x = 2 \tan t + 1 \quad y = 2 \sec ^ { 2 } t + 3 \quad - \frac { \pi } { 4 } \leqslant t \leqslant \frac { \pi } { 3 }$$ The line \(l\) is the normal to \(C\) at the point \(P\) where \(t = \frac { \pi } { 4 }\)
  1. Using parametric differentiation, show that an equation for \(l\) is $$y = - \frac { 1 } { 2 } x + \frac { 17 } { 2 }$$
  2. Show that all points on \(C\) satisfy the equation $$y = \frac { 1 } { 2 } ( x - 1 ) ^ { 2 } + 5$$ The straight line with equation $$y = - \frac { 1 } { 2 } x + k \quad \text { where } k \text { is a constant }$$ intersects \(C\) at two distinct points.
  3. Find the range of possible values for \(k\).
Edexcel Paper 2 2023 June Q1
4 marks Moderate -0.8
1. $$f ( x ) = x ^ { 3 } + 2 x ^ { 2 } - 8 x + 5$$
  1. Find \(f ^ { \prime \prime } ( x )\)
    1. Solve \(\mathrm { f } ^ { \prime \prime } ( x ) = 0\)
    2. Hence find the range of values of \(x\) for which \(\mathrm { f } ( x )\) is concave.
Edexcel Paper 2 2023 June Q2
6 marks Moderate -0.3
  1. A sequence \(u _ { 1 } , u _ { 2 } , u _ { 3 } \ldots\) is defined by
$$\begin{aligned} u _ { 1 } & = 35 \\ u _ { n + 1 } & = u _ { n } + 7 \cos \left( \frac { n \pi } { 2 } \right) - 5 ( - 1 ) ^ { n } \end{aligned}$$
    1. Show that \(u _ { 2 } = 40\)
    2. Find the value of \(u _ { 3 }\) and the value of \(u _ { 4 }\) Given that the sequence is periodic with order 4
    1. write down the value of \(u _ { 5 }\)
    2. find the value of \(\sum _ { r = 1 } ^ { 25 } u _ { r }\)
Edexcel Paper 2 2023 June Q3
5 marks Moderate -0.3
  1. Given that
$$\log _ { 2 } ( x + 3 ) + \log _ { 2 } ( x + 10 ) = 2 + 2 \log _ { 2 } x$$
  1. show that $$3 x ^ { 2 } - 13 x - 30 = 0$$
    1. Write down the roots of the equation $$3 x ^ { 2 } - 13 x - 30 = 0$$
    2. Hence state which of the roots in part (b)(i) is not a solution of $$\log _ { 2 } ( x + 3 ) + \log _ { 2 } ( x + 10 ) = 2 + 2 \log _ { 2 } x$$ giving a reason for your answer.
Edexcel Paper 2 2023 June Q4
4 marks
  1. Coffee is poured into a cup.
The temperature of the coffee, \(H ^ { \circ } \mathrm { C } , t\) minutes after being poured into the cup is modelled by the equation $$H = A \mathrm { e } ^ { - B t } + 30$$ where \(A\) and \(B\) are constants.
Initially, the temperature of the coffee was \(85 ^ { \circ } \mathrm { C }\).
  1. State the value of \(A\). Initially, the coffee was cooling at a rate of \(7.5 ^ { \circ } \mathrm { C }\) per minute.
  2. Find a complete equation linking \(H\) and \(t\), giving the value of \(B\) to 3 decimal places.
Edexcel Paper 2 2023 June Q5
5 marks Moderate -0.3
  1. The curve \(C\) has equation \(y = \mathrm { f } ( x )\)
The curve
  • passes through the point \(P ( 3 , - 10 )\)
  • has a turning point at \(P\)
Given that $$\frac { \mathrm { d } y } { \mathrm {~d} x } = 2 x ^ { 3 } - 9 x ^ { 2 } + 5 x + k$$ where \(k\) is a constant,
  1. show that \(k = 12\)
  2. Hence find the coordinates of the point where \(C\) crosses the \(y\)-axis.
Edexcel Paper 2 2023 June Q6
6 marks Moderate -0.8
  1. Relative to a fixed origin \(O\),
  • \(A\) is the point with position vector \(12 \mathbf { i }\)
  • \(B\) is the point with position vector \(16 \mathbf { j }\)
  • \(C\) is the point with position vector \(( 50 \mathbf { i } + 136 \mathbf { j } )\)
  • \(D\) is the point with position vector \(( 22 \mathbf { i } + 24 \mathbf { j } )\)
    1. Show that \(A D\) is parallel to \(B C\).
Points \(A , B , C\) and \(D\) are used to model the vertices of a running track in the shape of a quadrilateral. Runners complete one lap by running along all four sides of the track.
The lengths of the sides are measured in metres. Given that a particular runner takes exactly 5 minutes to complete 2 laps,
  • calculate the average speed of this runner, giving the answer in kilometres per hour.
    •
    Edexcel Paper 2 2023 June Q7
    7 marks Standard +0.3
    1. In this question you must show all stages of your working.
    Solutions relying on calculator technology are not acceptable.
    A curve has equation $$x ^ { 3 } + 2 x y + 3 y ^ { 2 } = 47$$
    1. Find \(\frac { \mathrm { d } y } { \mathrm {~d} x }\) in terms of \(x\) and \(y\) The point \(P ( - 2,5 )\) lies on the curve.
    2. Find the equation of the normal to the curve at \(P\), giving your answer in the form \(a x + b y + c = 0\), where \(a , b\) and \(c\) are integers to be found.
    Edexcel Paper 2 2023 June Q8
    6 marks Challenging +1.2
    1. (a) Express \(2 \cos \theta + 8 \sin \theta\) in the form \(R \cos ( \theta - \alpha )\), where \(R\) and \(\alpha\) are constants, \(R > 0\) and \(0 < \alpha < \frac { \pi } { 2 }\) Give the exact value of \(R\) and give the value of \(\alpha\) in radians to 3 decimal places.
    The first three terms of an arithmetic sequence are $$\cos x \quad \cos x + \sin x \quad \cos x + 2 \sin x \quad x \neq n \pi$$ Given that \(S _ { 9 }\) represents the sum of the first 9 terms of this sequence as \(x\) varies,
    (b) (i) find the exact maximum value of \(S _ { 9 }\) (ii) deduce the smallest positive value of \(x\) at which this maximum value of \(S _ { 9 }\) occurs.
    Edexcel Paper 2 2023 June Q9
    7 marks Standard +0.3
    1. The curve \(C\) has parametric equations
    $$x = t ^ { 2 } + 6 t - 16 \quad y = 6 \ln ( t + 3 ) \quad t > - 3$$
    1. Show that a Cartesian equation for \(C\) is $$y = A \ln ( x + B ) \quad x > - B$$ where \(A\) and \(B\) are integers to be found. The curve \(C\) cuts the \(y\)-axis at the point \(P\)
    2. Show that the equation of the tangent to \(C\) at \(P\) can be written in the form $$a x + b y = c \ln 5$$ where \(a\), \(b\) and \(c\) are integers to be found.
    Edexcel Paper 2 2023 June Q10
    7 marks Challenging +1.2
    1. \(\mathrm { f } ( x ) = \frac { 3 k x - 18 } { ( x + 4 ) ( x - 2 ) } \quad\) where \(k\) is a positive constant
      1. Express \(\mathrm { f } ( x )\) in partial fractions in terms of \(k\).
      2. Hence find the exact value of \(k\) for which
      $$\int _ { - 3 } ^ { 1 } f ( x ) d x = 21$$
    Edexcel Paper 2 2023 June Q11
    10 marks Standard +0.3
    11. \begin{figure}[h]
    \includegraphics[alt={},max width=\textwidth]{3f6f3f19-a1d0-488b-a1a4-302cc4cf5a1e-30_455_997_210_552} \captionsetup{labelformat=empty} \caption{Figure 1}
    \end{figure} A tank in the shape of a cuboid is being filled with water.
    The base of the tank measures 20 m by 10 m and the height of the tank is 5 m , as shown in Figure 1. At time \(t\) minutes after water started flowing into the tank the height of the water was \(h \mathrm {~m}\) and the volume of water in the tank was \(V \mathrm {~m} ^ { 3 }\) In a model of this situation
    • the sides of the tank have negligible thickness
    • the rate of change of \(V\) is inversely proportional to the square root of \(h\)
      1. Show that
    $$\frac { \mathrm { d } h } { \mathrm {~d} t } = \frac { \lambda } { \sqrt { h } }$$ where \(\lambda\) is a constant. Given that
    • initially the height of the water in the tank was 1.44 m
    • exactly 8 minutes after water started flowing into the tank the height of the water was 3.24 m
    • use the model to find an equation linking \(h\) with \(t\), giving your answer in the form
    $$h ^ { \frac { 3 } { 2 } } = A t + B$$ where \(A\) and \(B\) are constants to be found.
  • Hence find the time taken, from when water started flowing into the tank, for the tank to be completely full.
    • Edexcel Paper 2 2023 June Q12
    10 marks Moderate -0.3
    12. \begin{figure}[h]
    \includegraphics[alt={},max width=\textwidth]{3f6f3f19-a1d0-488b-a1a4-302cc4cf5a1e-34_643_652_210_708} \captionsetup{labelformat=empty} \caption{Figure 2}
    \end{figure} The number of subscribers to two different music streaming companies is being monitored. The number of subscribers, \(N _ { \mathrm { A } }\), in thousands, to company \(\mathbf { A }\) is modelled by the equation $$N _ { \mathrm { A } } = | t - 3 | + 4 \quad t \geqslant 0$$ where \(t\) is the time in years since monitoring began.
    The number of subscribers, \(N _ { \mathrm { B } }\), in thousands, to company B is modelled by the equation $$N _ { \mathrm { B } } = 8 - | 2 t - 6 | \quad t \geqslant 0$$ where \(t\) is the time in years since monitoring began.
    Figure 2 shows a sketch of the graph of \(N _ { \mathrm { A } }\) and the graph of \(N _ { \mathrm { B } }\) over a 5-year period.
    Use the equations of the models to answer parts (a), (b), (c) and (d).
    1. Find the initial difference between the number of subscribers to company \(\mathbf { A }\) and the number of subscribers to company B. When \(t = T\) company A reduced its subscription prices and the number of subscribers increased.
    2. Suggest a value for \(T\), giving a reason for your answer.
    3. Find the range of values of \(t\) for which \(N _ { \mathrm { A } } > N _ { \mathrm { B } }\) giving your answer in set notation.
    4. State a limitation of the model used for company B.
    Edexcel Paper 2 2023 June Q13
    13 marks Standard +0.3
    1. In this question you must show all stages of your working. Solutions relying entirely on calculator technology are not acceptable.
      1. Find the first three terms, in ascending powers of \(x\), of the binomial expansion of
      $$( 3 + x ) ^ { - 2 }$$ writing each term in simplest form.
    2. Using the answer to part (a) and using algebraic integration, estimate the value of $$\int _ { 0.2 } ^ { 0.4 } \frac { 6 x } { ( 3 + x ) ^ { 2 } } d x$$ giving your answer to 4 significant figures.
    3. Find, using algebraic integration, the exact value of $$\int _ { 0.2 } ^ { 0.4 } \frac { 6 x } { ( 3 + x ) ^ { 2 } } d x$$ giving your answer in the form \(a \ln b + c\), where \(a , b\) and \(c\) are constants to be found.
    Edexcel Paper 2 2023 June Q14
    7 marks
    1. In this question you must show all stages of your working.
    Solutions relying entirely on calculator technology are not acceptable.
    1. Show that the equation $$2 \tan \theta \left( 8 \cos \theta + 23 \sin ^ { 2 } \theta \right) = 8 \sin 2 \theta \left( 1 + \tan ^ { 2 } \theta \right)$$ may be written as $$\sin 2 \theta \left( A \cos ^ { 2 } \theta + B \cos \theta + C \right) = 0$$ where \(A , B\) and \(C\) are constants to be found.
    2. Hence, solve for \(360 ^ { \circ } \leqslant x \leqslant 540 ^ { \circ }\) $$2 \tan x \left( 8 \cos x + 23 \sin ^ { 2 } x \right) = 8 \sin 2 x \left( 1 + \tan ^ { 2 } x \right) \quad x \in \mathbb { R } \quad x \neq 450 ^ { \circ }$$
    Edexcel Paper 2 2023 June Q15
    3 marks Standard +0.8
    1. A student attempts to answer the following question:
    Given that \(x\) is an obtuse angle, use algebra to prove by contradiction that $$\sin x - \cos x \geqslant 1$$ The student starts the proof with: Assume that \(\sin x - \cos x < 1\) when \(x\) is an obtuse angle $$\begin{aligned} & \Rightarrow ( \sin x - \cos x ) ^ { 2 } < 1 \\ & \Rightarrow \ldots \end{aligned}$$ The start of the student's proof is reprinted below.
    Complete the proof. Assume that \(\sin x - \cos x < 1\) when \(x\) is an obtuse angle $$\Rightarrow ( \sin x - \cos x ) ^ { 2 } < 1$$
    Edexcel Paper 2 2024 June Q1
    5 marks Easy -1.8
    1. $$y = 4 x ^ { 3 } - 7 x ^ { 2 } + 5 x - 10$$
    1. Find in simplest form
      1. \(\frac { \mathrm { d } y } { \mathrm {~d} x }\)
      2. \(\frac { \mathrm { d } ^ { 2 } y } { \mathrm {~d} x ^ { 2 } }\)
    2. Hence find the exact value of \(x\) when \(\frac { \mathrm { d } ^ { 2 } y } { \mathrm {~d} x ^ { 2 } } = 0\)
    Edexcel Paper 2 2024 June Q2
    5 marks Moderate -0.3
    1. Jamie takes out an interest-free loan of \(\pounds 8100\)
    Jamie makes a payment every month to pay back the loan.
    Jamie repays \(\pounds 400\) in month \(1 , \pounds 390\) in month \(2 , \pounds 380\) in month 3 , and so on, so that the amounts repaid each month form an arithmetic sequence.
    1. Show that Jamie repays \(\pounds 290\) in month 12 After Jamie's \(N\) th payment, the loan is completely paid back.
    2. Show that \(N ^ { 2 } - 81 N + 1620 = 0\)
    3. Hence find the value of \(N\).
    Edexcel Paper 2 2024 June Q3
    4 marks Easy -1.2
    1. The point \(P ( 3 , - 2 )\) lies on the curve with equation \(y = \mathrm { f } ( x ) , x \in \mathbb { R }\)
    Find the coordinates of the point to which \(P\) is mapped when the curve with equation \(y = \mathrm { f } ( x )\) is transformed to the curve with equation
    1. \(y = \mathrm { f } ( x - 2 )\)
    2. \(y = \mathrm { f } ( 2 x )\)
    3. \(y = 3 \mathrm { f } ( - x ) + 5\)
    Edexcel Paper 2 2024 June Q4
    5 marks Moderate -0.3
    1. A sequence \(u _ { 1 } , u _ { 2 } , u _ { 3 } , \ldots\) is defined by
    $$\begin{aligned} u _ { n + 1 } & = k u _ { n } - 5 \\ u _ { 1 } & = 6 \end{aligned}$$ where \(k\) is a positive constant.
    Given that \(u _ { 3 } = - 1\)
    1. show that $$6 k ^ { 2 } - 5 k - 4 = 0$$
    2. Hence
      1. find the value of \(k\),
      2. find the value of \(\sum _ { r = 1 } ^ { 3 } u _ { r }\)
    Edexcel Paper 2 2024 June Q5
    3 marks Standard +0.3
    1. Given that \(\theta\) is small and in radians, use the small angle approximations to find an approximate numerical value of
    $$\frac { \theta \tan 2 \theta } { 1 - \cos 3 \theta }$$
    Edexcel Paper 2 2024 June Q6
    7 marks Standard +0.3
    6. \begin{figure}[h]
    \includegraphics[alt={},max width=\textwidth]{2ce10759-9ce6-47a1-b55d-d22082f88f55-12_518_670_248_740} \captionsetup{labelformat=empty} \caption{Figure 1}
    \end{figure} Figure 1 shows a sketch of the curves with equations \(y = \mathrm { f } ( x )\) and \(y = \mathrm { g } ( x )\) where $$\begin{array} { l l } \mathrm { f } ( x ) = \mathrm { e } ^ { 4 x ^ { 2 } - 1 } & x > 0 \\ \mathrm {~g} ( x ) = 8 \ln x & x > 0 \end{array}$$
    1. Find
      1. \(\mathrm { f } ^ { \prime } ( x )\)
      2. \(\mathrm { g } ^ { \prime } ( x )\) Given that \(\mathrm { f } ^ { \prime } ( x ) = \mathrm { g } ^ { \prime } ( x )\) at \(x = \alpha\)
    2. show that \(\alpha\) satisfies the equation $$4 x ^ { 2 } + 2 \ln x - 1 = 0$$ The iterative formula $$x _ { n + 1 } = \sqrt { \frac { 1 - 2 \ln x _ { n } } { 4 } }$$ is used with \(x _ { 1 } = 0.6\) to find an approximate value for \(\alpha\)
    3. Calculate, giving each answer to 4 decimal places,
      1. the value of \(x _ { 2 }\)
      2. the value of \(\alpha\)
    Edexcel Paper 2 2024 June Q7
    5 marks Standard +0.8
    7. \begin{figure}[h]
    \includegraphics[alt={},max width=\textwidth]{2ce10759-9ce6-47a1-b55d-d22082f88f55-16_330_654_246_751} \captionsetup{labelformat=empty} \caption{Figure 2}
    \end{figure} Figure 2 shows a sketch of the straight line \(l\).
    Line \(l\) passes through the points \(A\) and \(B\).
    Relative to a fixed origin \(O\)
    • the point \(A\) has position vector \(2 \mathbf { i } - 3 \mathbf { j } + 5 \mathbf { k }\)
    • the point \(B\) has position vector \(5 \mathbf { i } + 6 \mathbf { j } + 8 \mathbf { k }\)
      1. Find \(\overrightarrow { A B }\)
    Given that a point \(P\) lies on \(l\) such that $$| \overrightarrow { A P } | = 2 | \overrightarrow { B P } |$$
  • find the possible position vectors of \(P\).
    •
    Edexcel Paper 2 2024 June Q8
    7 marks Standard +0.3
    1. In this question you must show all stages of your working.
    Solutions relying entirely on calculator technology are not acceptable.
    1. Prove that $$\frac { 1 } { \operatorname { cosec } \theta - 1 } + \frac { 1 } { \operatorname { cosec } \theta + 1 } \equiv 2 \tan \theta \sec \theta \quad \theta \neq ( 90 n ) ^ { \circ } , n \in \mathbb { Z }$$
    2. Hence solve, for \(0 < x < 90 ^ { \circ }\), the equation $$\frac { 1 } { \operatorname { cosec } 2 x - 1 } + \frac { 1 } { \operatorname { cosec } 2 x + 1 } = \cot 2 x \sec 2 x$$ Give each answer, in degrees, to one decimal place.
    Edexcel Paper 2 2024 June Q9
    7 marks Moderate -0.3
    9. \begin{figure}[h]
    \includegraphics[alt={},max width=\textwidth]{2ce10759-9ce6-47a1-b55d-d22082f88f55-22_595_1058_248_466} \captionsetup{labelformat=empty} \caption{Figure 3}
    \end{figure} The graph in Figure 3 shows the path of a small ball.
    The ball travels in a vertical plane above horizontal ground.
    The ball is thrown from the point represented by \(A\) and caught at the point represented by \(B\). The height, \(H\) metres, of the ball above the ground has been plotted against the horizontal distance, \(x\) metres, measured from the point where the ball was thrown. With respect to a fixed origin \(O\), the point \(A\) has coordinates \(( 0,2 )\) and the point \(B\) has coordinates (20, 0.8), as shown in Figure 3. The ball reaches its maximum height when \(x = 9\) A quadratic function, linking \(H\) with \(x\), is used to model the path of the ball.
    1. Find \(H\) in terms of \(x\).
    2. Give one limitation of the model. Chandra is standing directly under the path of the ball at a point 16 m horizontally from \(O\). Chandra can catch the ball if the ball is less than 2.5 m above the ground.
    3. Use the model to determine if Chandra can catch the ball.