Edexcel IAS-Level · 分析與預測

2024 Edexcel IAS-Level Physics (XPH11) Past Paper 分析與預測

A comprehensive analysis of the January 2024 International Advanced Subsidiary (IAS) Physics papers (Unit 1, Unit 2, and Unit 3). The papers assess core principles of Mechanics, Materials, Waves, Electricity, and Experimental Skills, featuring a blend of multiple-choice conceptual questions, deep mathematical derivations, and graphical analysis.

更新: 2026年6月12日

分析模擬試題

難度 3.8/5

總分

210

時間

260 分鐘

最高頻課題

Waves and Mechanics Core Principles

分卷

Unit 1: Mechanics and Materials: 80 分 · 90 分鐘Unit 2: Waves and Electricity: 80 分 · 90 分鐘Unit 3: Practical Skills in Physics I: 50 分 · 80 分鐘

重點章節

Waves and Particle Nature of Light · 65 分Mechanics · 60 分Electric Circuits · 45 分Materials · 40 分

Executive Difficulty Verdict

The January 2024 suite presents a balanced but challenging test of IAS Physics. Unit 1 features a demanding multi-part moments question on a uniform door, which required precise spatial reasoning and trigonometric resolution. Unit 2 pushes conceptual limits with thermistor circuit analyses and solar cell parallel/series power dissipation deductions. Unit 3 demands clean graph plotting and robust uncertainty propagation calculations, reflecting a high expectation for practical skill execution.

Where the Marks Lie

Marks are heavily concentrated in analytical resolution and algebraic manipulation:

Mechanics: Resolving projectile motion, analyzing vertical forces on hanging structures, and formulating equations of motion for non-constant acceleration.
Materials: Stokes' law calculations, and graphical determination of the Young modulus for brass.
Waves & Light: Total internal reflection threshold calculations, standing wave harmonics on strings, and double-gap interference paths.
Circuits: Internal resistance investigations, non-ohmic wire resistance variations at elevated temperatures, and solar cell network calculations.

Key Examiner Pitfalls

Examiners highlighted several persistent weaknesses across the candidate cohort:

Hysteresis Graph Analysis: Many candidates failed to realize that the heat dissipated corresponds to the area between the loading and unloading curves, or struggled to accurately compute the energy scale of a single grid square.
Fluid Dynamics: In terminal velocity problems, candidates frequently omitted either the upthrust of the fluid or the viscous drag force in their force-balance equations.
Moment Calculations: Candidates often forgot that the weight of a uniform door acts exactly at \( w/2 \), leading to incorrect clockwise/anticlockwise balancing.
Uncertainty Propagation: Halving the range to find absolute uncertainty was frequently missed when processing multiple experimental trials.

Strategy & Prep Recommendations

To maximize scores in subsequent sessions, students should focus on:

Practicing three-force equilibrium diagrams and moments about arbitrary pivots.
Mastering the potential divider equation and parallel cell rules where internal resistance is non-negligible.
Reviewing Huygens' construction mechanics for predicting wave diffraction profiles step-by-step.

圖表

章節分數分佈

快速找出最多分數集中在哪些課題，優先分配溫習時間。

題型分佈

比較不同題型佔分，了解試卷結構和答題比重。

選擇題20 分 · 20 題
Short Answer24 分 · 12 題
Structured Calculation82 分 · 15 題
Conceptual Explanation & Proof84 分 · 14 題

分數難度分佈

估算哪些分數屬基本分、進階分或高難度分。

76%屬較易或中等難度

較易: 65 分中等: 95 分較難: 50 分

歷年難度趨勢

比較歷年難度，判斷今年是否明顯偏難或偏易。

指令詞頻率

留意常見指令詞，避免答題方向錯配。

技能比重

顯示今屆試卷主要考核的能力比例。

溫習回報

氣泡越大代表越常重現；越高代表佔分越多，適合用來排溫習優先次序。

Waves: Refraction and Critical Angle

15 分 · 難度 2 · 重現率 90%

Materials: Young Modulus Determination

16 分 · 難度 2.5 · 重現率 85%

Mechanics: Momentum and SUVAT Resolution

22 分 · 難度 3 · 重現率 95%

Circuits: Internal Resistance and EMF

18 分 · 難度 3.5 · 重現率 80%

時間與分數

比較每部分分數和建議作答時間，幫助安排考場節奏。

分分鐘

下年趨勢預測

整理下年較值得留意的課題，以及背後原因。

Potential Dividers & LDR Circuits90%

While thermistors and internal resistance graphs dominated Jan 2024, sensory LDR divider networks remain under-tested in recent sessions.

Viscosity of Liquids & Stokes' Law85%

Tested thoroughly in Jan 2024 (Unit 1 Q15), meaning it is highly likely to remain a cornerstone of next-year options, possibly transitioning from a liquid focus to terminal velocity in gases.

Young Modulus of Metallic Wires80%

This is a mandatory core practical. Its appearance in Jan 2024 Unit 1 Q17 means future series may focus on alternative materials like polymers (plastic deformation) or stress-strain curves of rubber.

跨年度課題熱度

按年度比較課題熱度，找出常考或回歸機會較高的內容。

Jun 2023

Oct 2023

Jan 2024

Mechanics

Waves and Particle Nature of Light

Electric Circuits

Materials

Practical Skills - Materials

Practical Skills - Quantum & Waves

Practical Skills - Mechanics & Materials

Practical Skills - Waves & Electricity

考官重點

官方報告整理

常見失分位

Hysteresis calculations: Candidates frequently fail to calculate the area between the loading and unloading curves to find the energy lost to heating.
Stokes' law calculations: Omitting fluid upthrust from the forces acting on a falling sphere when working out viscous drag.
Moments resolution: Taking moments about a hinge and forgetting to divide the uniform door's horizontal width by two to locate its center of gravity.

常見誤解

Believing that the equations of motion (SUVAT) can be applied to motion along a curved path with varying acceleration (such as a slide with varying gradient).
Assuming that terminal velocity depends purely on mass, ignoring the geometry, upthrust, and drag factors.

失分原因

Losing marks due to incorrect grid scale counting when evaluating areas under force-extension graphs.
Failing to convert millimeters or micrometers into meters during stress, strain, or resistivity calculations, leading to power-of-10 errors.
Omitting key definitions when explaining physical behaviors, such as defining coherence in waves as having a 'constant phase relationship' instead of just 'same frequency'.

等級 cut-off 估算

更新: 2026年6月12日

來源: Pearson Edexcel International A Level grade boundaries (UMS)

等級	分數	百分比
A	—	80%
B	—	70%
C	—	60%
D	—	50%
E	—	40%

Official grade boundaries published by Pearson Edexcel International A Level grade boundaries (UMS).

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