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CHEMISTRY · IB Diploma Programme

CHEMISTRY/22

Paper 2

Chemistry · 2023 · Variant 2

Relative difficulty

Standard · 3.2/5

Analysis source: International Baccalaureate Organization

Analysis aligned to the official syllabus and assessment design.

Relative difficulty

3.2 / 5

Total marks

115

Duration

180 min

Most tested topic

Electron transfer reactions (including redox titrations and electrochemical cells)

Cohort performance

Session statistics from official examination reports

Total marks

115

Duration

180 min

Session difficulty

3.2 / 5

Key examiner messages

Top priorities from the principal examiner before you revise

1

The May 2023 Standard Level examination represents a balanced assessment that tests structural models, energetic transitions, and organic reaction pathways in equal measure.

2

This cohort encountered standard computational tasks alongside several highly specific qualitative demands, particularly in spectroscopic analysis and periodic trends.

3

Compare difficulty across recent years. Compare topic weight by year to spot recurring and returning areas.

Question difficulty map

How candidates performed on each question in this series

No data available in official reports

Assessment objectives

Skill and AO weighting from official examiner commentary

Quantitative6
Structure &5
Bondi4
Experimental &3
Reaction Mechanism2

Skill weighting

Shows the skill mix this paper tested most heavily.

QuantitativeQuantitativeStructure &Structure &BondiBondiExperimental &Experimental &Reaction MechanismReactionMechanism
SkillWeightShare
  • Quantitative

    Weight: 6100%
  • Structure &

    Weight: 583%
  • Bondi

    Weight: 467%
  • Experimental &

    Weight: 350%
  • Reaction Mechanism

    Weight: 233%

Method marks watchlist

Where working, steps, or method marks were commonly lost

No data available in official reports

Recurring mistakes across years

Themes examiners flag in multiple recent sessions for this subject

No data available in official reports

Question choice intelligence

Mean scores and popularity for optional questions (HKDSE electives)

No data available in official reports

Level exemplars

What candidate scripts at each grade level looked like

No data available in official reports

Grade & admission context

How marks relate to grade thresholds and entry standards

Report type

IB subject report — grade distributions, IA weighting, and HL/SL distinctions

Level 7

Excellent — top band for competitive university offers

Level 6

Very good — strong HL performance

Level 5

Good — solid pass at higher level

Level 4

Satisfactory — minimum for many university credits

Level 3

Mediocre

Level 2

Poor

Level 1

Very poor

Deep insights

What top candidates did

Techniques and approaches examiners rewarded in this series

No data available in official reports

Command word playbook

How to match each command word to the expected response style

CalculateFrequency: 9

Show formula, substitution, and unit; method marks need visible working.

ExplainFrequency: 7

Give reasons and link mechanism to outcome; each point needs a because/so chain.

DetermineFrequency: 6

Match the expected response style for “Determine” questions.

IdentifyFrequency: 8

Name or point to the specific feature asked for — avoid extra explanation.

OutlineFrequency: 11

Match the expected response style for “Outline” questions.

Time traps

Sections where candidates spent disproportionate time relative to marks

Paper 3 Section A (…35m / 20 marks

Min per mark: 1.8

Paper 2 (Core Writt…25m / 15 marks

Min per mark: 1.7

Paper 1 (Core MCQ)75m / 50 marks

Min per mark: 1.5

Syllabus traceability

Topics linked to questions and mark weighting in this session

Electron transfer reactions

19 marks this session

Functional groups: Classification of organic compounds

13 marks this session

Option D: Medicinal Chemistry

20 marks this session

MCQ trap analytics

Commonly chosen wrong options from examiner commentary

No data available in official reports

Topic heatmap across years

Mark concentration by topic and exam year for this subject

Mark intensity

LowHigh
Topic
2023
2024
2025
Σ

Counting particles by mass: The mole

11
13
24

Green Chemistry and Experimental Methods

23
23

Option D: Medicinal Chemistry

20
20

The covalent model

10
10
20

Measurements, Uncertainties and Spectroscopy

14
14

Electron transfer reactions

14
14

How fast? The rate of chemical change

13
13

Functional groups: Classification of organic compounds

12
12

Difficulty trend

How session difficulty has shifted across recent years

202320242025
2023 2023 · 3.5/52024 2024 · 3.2/52025 June 2025 · 3.4/5

Paper comparison

Marks and duration breakdown across papers in this session

Paper 1 (Standard Level):

30 marks45 min

Paper 2 (Standard Level):

50 marks75 min

Paper 3 (Standard Level):

35 marks60 min

Marks you can still earn

Where valid approaches outside the mark scheme may still gain credit

  • Believing catalysts lower the activation energy of the same pathway rather than providing an alternative mechanism with a lower activation energy barrier.

Practise what examiners flagged

Target weak topics from this report inside the Revui app

Self-diagnostic checklist

Key actions before you sit this paper — copy and tick off as you revise

  • 1Message

    The May 2023 Standard Level examination represents a balanced assessment that tests structural models, energetic transitions, and organic reaction pathways in equal measure.

  • 2Message

    This cohort encountered standard computational tasks alongside several highly specific qualitative demands, particularly in spectroscopic analysis and periodic trends.

  • 3Message

    Compare difficulty across recent years. Compare topic weight by year to spot recurring and returning areas.

Teacher briefing pack

One-page session summary for tutors and classroom review

2023 2023

Chemistry

The May 2023 Standard Level examination represents a balanced assessment that tests structural models, energetic transitions, and organic reaction pathways in equal measure. This cohort encountered standard computational tasks alongside several highly specific qualitative demands

  • The May 2023 Standard Level examination represents a balanced assessment that tests structural models, energetic transitions, and organic reaction pathways in equal measure.

  • This cohort encountered standard computational tasks alongside several highly specific qualitative demands, particularly in spectroscopic analysis and periodic trends.

  • Compare difficulty across recent years. Compare topic weight by year to spot recurring and returning areas.

Total marks
115
Duration
180 min
Session difficulty
3.2 / 5

Session analysis

The May 2023 Standard Level examination represents a balanced assessment that tests structural models, energetic transitions, and organic reaction pathways in equal measure. This cohort encountered standard computational tasks alongside several highly specific qualitative demands, particularly in spectroscopic analysis and periodic trends.

Updated Jun 14, 2026

Paper breakdown

Paper 1 (Standard Level):

30 marks45 min

Paper 2 (Standard Level):

50 marks75 min

Paper 3 (Standard Level):

35 marks60 min

Top chapters

Electron transfer reactions19 marks
Functional groups: Classification of organic compounds13 marks
Option D: Medicinal Chemistry20 marks

Exam structure insights

Marks by chapter

See where the marks were concentrated so revision time goes to the highest-value topics.

Electron transfer reactions19 marks
Functional groups: Classificati13 marks
The covalent model7 marks
Measuring enthalpy change8 marks
How fast? The rate of chemical7 marks
Proton transfer reactions6 marks
The periodic table: Classificat10 marks
Counting particles by mass: The5 marks

Mark accessibility

Estimate which marks were basic, mid-level, or high-difficulty.

81% within easy or medium reach

38
55
22
Easy: 38 marksMedium: 55 marksHard: 22 marks

Command word frequency

Spot common command words so answers match the expected response style.

Calculate9 times
Explain7 times
Determine6 times
Identify8 times
Outline11 times

Question type mix

Compare the mark share of each paper section and question type.

115Marks
  • Short Answer / Structured

    85·16·74%

  • Multiple Choice

    30·30·26%

Study ROI

Bigger bubbles recur more often; higher bubbles carry more marks, helping you rank revision priorities.

DifficultyRecurrence %Electron transfer …Functional groups:…The periodic table…Measuring enthalpy…

Time vs marks

Compare marks with suggested time allocation to plan exam pacing.

MarksMinutesMarks / min

Paper 1 (Core MCQ)

0.67 m/min
50
75

Paper 2 (Core Writt…

0.60 m/min
15
25

Paper 3 Section A (…

0.57 m/min
20
35

Total marks

85

Total time

135 min

Avg pace

0.63

Next-year prediction

Topics worth watching next year, with the reason shown directly below each bar.

Ideal gases and gas law calculations

85%

85%

Energy cycles and Born-Haber / Hess's Law cycles

78%

78%

M23 Chemistry Standard Level Analysis

The May 2023 Standard Level examination represents a balanced assessment that tests structural models, energetic transitions, and organic reaction pathways in equal measure. This cohort encountered standard computational tasks alongside several highly specific qualitative demands, particularly in spectroscopic analysis and periodic trends.

Exam tips

Paper format

Duration
2h 30min
Total marks
90

Analysis is paraphrased for study purposes. Always verify against the official examiner report and mark scheme.

CHEMISTRY/22 — IB Diploma Programme Chemistry (2023) | Revui