Master the essential exam strategies, identify high-frequency pitfalls, and optimize your scoring on the Cambridge International AS Level Mathematics - Further (9231) exam papers with expert-guided tips.
読了時間 3 分更新日: 2026年6月21日
試験の概要
試験数
2
満点
150
制限時間
4時間
出題形式
3
試験
時間
配点
問題数
配点比率
出題形式
Paper 1: Further Pure Mathematics 1
2時間
75
7
50%
Structured Questions
Paper 2: Further Pure Mathematics 2
2時間
75
8
50%
Structured Questions
評価段階
A*ABCDEU
電卓の規定
A silent scientific calculator is required where the syllabus permits one. It must NOT be graphical, programmable, or capable of symbolic algebra (CAS), and it must contain no stored programs or notes.
AO1: Mathematical units, algebraic fluency, and application of techniques
AO2: Mathematical proof, logical derivation, and interpretation
過去問と採点基準にもとづいて作成(2023–2025)。
電卓プログラム
Table mode for roots & turning points
Scientific calculator (e.g. Casio fx-991 series)
目的: Tabulate \(y\) across a range of \(x\) to locate sign changes (roots) and approximate maxima/minima.
使う場面: Solving or sketching a function when you want to find where its graph crosses or turns.
手順
Enter the function in TABLE mode, set the start, end and step, then read where the sign of \(y\) changes or where it peaks.
試験での注意: Allowed, but the calculator must be silent, non-graphical, non-programmable and free of stored content; always show the working the mark scheme requires.
Statistics mode (mean, SD & regression)
Scientific calculator (e.g. Casio fx-991 series)
目的: Read the mean \(\bar{x}\) and standard deviation directly, and the gradient/intercept (and \(r\)) of a linear regression for bivariate data.
使う場面: Any data-handling, statistics, or required-practical analysis question.
手順
Enter the data in STAT mode (1-VAR or A+BX), then recall \(\bar{x}\), \(\sigma\) or the regression coefficients.
試験での注意: Allowed, but the calculator must be silent, non-graphical, non-programmable and free of stored content; always show the working the mark scheme requires.
Carry exact values with Ans & memory
Scientific calculator (e.g. Casio fx-991 series)
目的: Keep full-precision intermediate values to avoid rounding errors.
使う場面: Multi-step calculations where premature rounding loses the final accuracy mark.
手順
Use Ans, STO/RCL or the M+ memory to reuse the unrounded result of each step; round only the final answer.
試験での注意: Allowed, but the calculator must be silent, non-graphical, non-programmable and free of stored content; always show the working the mark scheme requires.
Equation solver — to CHECK your working
Scientific calculator (e.g. Casio fx-991 series)
目的: Use the built-in EQN/SOLVE mode to verify roots of quadratics or simultaneous equations you have already solved by algebra.
使う場面: As a check only, after solving by hand.
手順
Enter the coefficients in EQN mode (or use SOLVE) and confirm they match your worked solution.
試験での注意: Allowed, but the calculator must be silent, non-graphical, non-programmable and free of stored content; always show the working the mark scheme requires.
よくあるミス
1high影響する配点: 2Polar coordinates
Forgetting the factor of 1/2 in the polar curve area integral formula \( \frac{1}{2} \int r^2 d\theta \).
回避方法: Write the general formula down with the 1/2 factor explicitly written outside the integral sign before substituting your r-expression.
2high影響する配点: 3Differentiation
Failing to divide by \( \frac{dx}{dt} \) when calculating the second parametric derivative \( \frac{d^2y}{dx^2} \).
回避方法: Consistently write the formula \( \frac{d^2y}{dx^2} = \frac{d}{dt}\left(\frac{dy}{dx}\right) / \frac{dx}{dt} \) as your first line of working for parametric second derivatives.
3medium影響する配点: 2Proof by induction
Omitting the base case check or writing an incomplete concluding statement in mathematical induction proofs.
回避方法: Explicitly show the calculation for \( n = 1 \) (or the first positive integer), write 'assume true for \( n = k \)', and conclude with a formal paragraph summarizing the inductive principle.
4high影響する配点: 2Matrices (FPM1)
Multiplying transformation matrices in the incorrect order when finding a composite transformation matrix.
回避方法: Remember that consecutive transformations are applied right-to-left. For transformation A followed by B, the composite matrix is BA.
5high影響する配点: 3Differential equations (FPM2)
Applying boundary values or dividing by the integrating factor before adding the arbitrary constant of integration \( C \) in differential equations.
回避方法: Add \( + C \) immediately at the integration step before you rearrange or attempt to solve for the constant with initial conditions.
6medium影響する配点: 1Vectors
Omitting the 'r =' prefix when writing vector equations of lines.
回避方法: Always write vector equations of lines in the complete format, beginning with \( \mathbf{r} = \mathbf{a} + \lambda \mathbf{b} \). Giving only the right-hand expression loses direct marks.