0620

Cambridge IGCSE Chemistry (0620) - March 2023 Past Papers

Download 15 free IGCSE Chemistry past papers, mark schemes, and examiner reports from the March 2023 Cambridge examination session. Includes question papers for all variants with full solutions.

About IGCSE Chemistry (0620)

IGCSE Chemistry covers atomic structure, bonding, stoichiometry, organic chemistry, electrochemistry, and chemical analysis. Candidates must balance equations, predict reaction products, and understand the properties of elements and compounds.

What this exam tests: Key skills include mole calculations, identifying functional groups, interpreting spectra, and planning experiments.

Papers available in variants 11, 12, 13 for different time zones. All variants cover the same Chemistry syllabus with equal difficulty.

Grade Thresholds

Study Resources for Chemistry

Prepare for your exam with these complementary resources:

Revision Notes
49 topics
Flashcards
457 cards
Practice Quiz
Test your knowledge

0620 March 2023 Papers

0620 Paper 1 - Multiple Choice (Core)

45 min • 40 marks

Tests broad syllabus knowledge with 40 questions. Each question has four options (A-D). Core tier paper.

Question Paper
Mark Scheme
QP + MS QP + ER

All variants (different time zones):

QP:
v2
MS:
v2

0620 Paper 2 - Multiple Choice (Extended)

45 min • 40 marks

Extended tier multiple choice with more challenging questions covering the full syllabus. 40 questions, 45 minutes.

Question Paper
Mark Scheme
QP + MS QP + ER

All variants (different time zones):

QP:
v2
MS:
v2

0620 Paper 3 - Theory (Core)

1 hr 15 min • 80 marks

Structured and free-response questions testing understanding and application. Core tier, grades available C-G.

Question Paper
Mark Scheme
QP + MS QP + ER

All variants (different time zones):

QP:
v2
MS:
v2
View syllabus topics tested in Paper 3 (8 topics, 80 marks total)

This 0620 Paper 3 from March 2023 tests 8 different syllabus topics. The highest-weighted topic is Corrosion (Metals) worth 14 marks out of 80 total marks. Other significant topics include Alcohols (13 marks) and Hydrogen-oxygen fuel cells (11 marks).

Mark distribution by topic:

Corrosion 14/80
Alcohols 13/80
Hydrogen-oxygen fuel cells 11/80
Electrolysis 11/80
Reactivity series 10/80
Group I - Alkali metals 10/80
Elements, compounds and mixtures 6/80
Air and air quality 5/80

Understanding which topics carry the most marks helps you prioritize your Chemistry revision. Practice questions from high-mark topics like Corrosion to maximize your score.

0620 Paper 4 - Theory (Extended)

1 hr 15 min • 80 marks

Extended tier theory paper with more demanding questions. Full grade range A*-G available with this paper.

Question Paper
Mark Scheme
QP + MS QP + ER

All variants (different time zones):

QP:
v2
MS:
v2
View syllabus topics tested in Paper 4 (5 topics, 80 marks total)

This 0620 Paper 4 from March 2023 tests 5 different syllabus topics. The highest-weighted topic is Reversible reactions and equilibrium (Chemical reactions) worth 18 marks out of 80 total marks. Other significant topics include Transition elements (18 marks) and Formulae (17 marks).

Mark distribution by topic:

Reversible reactions and equilibrium 18/80
Transition elements 18/80
Formulae 17/80
Group I - Alkali metals 16/80
Air and air quality 11/80

Understanding which topics carry the most marks helps you prioritize your Chemistry revision. Practice questions from high-mark topics like Reversible reactions and equilibrium to maximize your score.

0620 Paper 5 - Practical Test

1 hr 15 min • 40 marks

Tests practical skills including planning experiments, recording data, and drawing conclusions from results.

Question Paper
Mark Scheme
QP + MS QP + ER

All variants (different time zones):

QP:
v2
MS:
v2
View syllabus topics tested in Paper 5 (2 topics, 40 marks total)

This 0620 Paper 5 from March 2023 tests 2 different syllabus topics. The highest-weighted topic is Calculations (Stoichiometry) worth 18 marks out of 40 total marks. Other significant topics include Identification of ions and gases (16 marks)

Mark distribution by topic:

Calculations 18/40
Identification of ions and gases 16/40

Understanding which topics carry the most marks helps you prioritize your Chemistry revision. Practice questions from high-mark topics like Calculations to maximize your score.

0620 Paper 6 - Alternative to Practical

1 hr • 40 marks

Written paper testing practical skills through questions about experimental methods, data, and analysis.

Question Paper
Mark Scheme
QP + MS QP + ER

All variants (different time zones):

QP:
v2
MS:
v2
View syllabus topics tested in Paper 6 (3 topics, 40 marks total)

This 0620 Paper 6 from March 2023 tests 3 different syllabus topics. The highest-weighted topic is Calculations (Stoichiometry) worth 18 marks out of 40 total marks. Other significant topics include Identification of ions and gases (9 marks) and Rate of reaction (7 marks).

Mark distribution by topic:

Calculations 18/40
Identification of ions and gases 9/40
Rate of reaction 7/40

Understanding which topics carry the most marks helps you prioritize your Chemistry revision. Practice questions from high-mark topics like Calculations to maximize your score.

Other Resources

Additional materials to help you prepare and understand how exams are marked.

Examiner Report

Insights from examiners on how students performed. Learn common mistakes to avoid and what examiners look for in top answers.

View

Confidential Instructions

Instructions for teachers on practical exams. Useful for understanding experiment setups and expected procedures.

P5

0620 March 2023 - Topics Breakdown by Paper

Each Cambridge IGCSE Chemistry (0620) paper tests specific syllabus topics. Below is a breakdown of topics for each paper in March 2023, showing how marks are distributed. Use this to focus your revision on topics relevant to your papers.

0620 Paper 3 (Theory (Core))

80 marks total
Corrosion (Metals)
Notes 10 cards
14m
Alcohols (Organic chemistry)
Notes 11 cards
13m
Hydrogen-oxygen fuel cells (Electrochemistry)
11m
Electrolysis (Electrochemistry)
Notes 12 cards
11m
Reactivity series (Metals)
Notes 12 cards
10m
Group I - Alkali metals (The Periodic Table)
Notes 9 cards
10m

+ 2 more topics

0620 Paper 4 (Theory (Extended))

80 marks total
Reversible reactions and equilibrium (Chemical reactions)
Notes 12 cards
18m
Transition elements (The Periodic Table)
Notes 10 cards
18m
Formulae (Stoichiometry)
Notes 12 cards
17m
Group I - Alkali metals (The Periodic Table)
Notes 9 cards
16m
Air and air quality (Chemistry of the environment)
Notes 10 cards
11m

0620 Paper 5 (Practical Test)

40 marks total
Calculations (Stoichiometry)
Notes 11 cards
18m
Identification of ions and gases (Experimental techniques and chemical analysis)
Notes 11 cards
16m

0620 Paper 6 (Alternative to Practical)

40 marks total
Calculations (Stoichiometry)
Notes 11 cards
18m
Identification of ions and gases (Experimental techniques and chemical analysis)
Notes 11 cards
9m
Rate of reaction (Chemical reactions)
Notes 10 cards
7m

Study tip: If you're taking the Extended tier, focus on Papers 2, 4, and 6. For Core tier, prepare for Papers 1, 3, and 5/6. Review the topics above for your specific papers and practice past questions from those syllabus areas.

Examiner Insights - March 2023

Key feedback from Cambridge examiners on how students performed

Key Takeaways

  • Pay close attention to the wording of questions and ensure answers are complete and specific.
  • Memorize key definitions, chemical reactions, and experimental procedures.
  • Practice applying chemical knowledge to unfamiliar situations, such as interpreting graphs and experimental results.
  • Show all working steps in calculations to maximize partial credit and understand the process.
  • Focus on the new content in the syllabus and practice questions related to these topics.
Paper 12 - Multiple Choice (Core)

Candidates showed varying levels of understanding across different topics. Some questions were significantly more challenging than others, indicating specific areas needing improvement. Students struggled with some concepts but excelled at others.

Study Tips:

  • Practice past paper questions focusing on the topics identified as most demanding.
  • Review definitions and applications of key chemistry terms like 'hydrated,' 'catalyst', 'homologous series', etc.

Common Mistakes:

Q4 (Halogens)
Selecting a partially correct option that includes the word 'halogen' when it makes the option entirely incorrect.
Read all answer options carefully and ensure they are COMPLETELY correct, not just partially.
Q5 (Chemical Reactions)
Believing chemical reactions occur through the movement of protons instead of electrons.
Remember that chemical reactions involve the movement of electrons between atoms/ions.
Q6 (Bonding)
Misunderstanding the bonding in chlorine or the meaning of the word 'pair'.
Review the different types of bonding (ionic, covalent) and practice identifying them in various molecules.
Q7 (Graphite Structure and Properties)
Knowing the structure of graphite but not understanding why it is used as an electrode.
Connect a substance's structure to its properties and specific uses.
Paper 22 - Multiple Choice (Extended)

The paper was generally accessible, with a range of performance among candidates. Some questions proved significantly more challenging, highlighting areas requiring focused review. Calculations and understanding specific reaction conditions were common difficulties.

Study Tips:

  • Focus on practicing calculation questions, showing all working steps clearly.
  • Review reactions and conditions from the syllabus, especially new content on cooling curves and reaction equations.

Common Mistakes:

Q1 (Cooling Curves)
Not recalling that the temperature does not change during a change of state in a cooling curve.
Carefully study cooling curves and understand the relationship between temperature and changes of state.
Q9 (Stoichiometry)
Assuming all the sodium hydrogencarbonate decomposed in a calculation problem.
Carefully read the problem statement and identify any limiting reagents or incomplete reactions.
Q14 (Activation Energy)
Not recognizing that the activation energy of a reaction does not change.
Understand the definition and properties of activation energy - it is a barrier to the reaction.
Q18 (Redox Reactions)
Identifying the metal that is reduced rather than the substance which causes the reduction.
Distinguish between oxidizing and reducing agents; the reducing agent is oxidized and vice versa.
Paper 32 - Theory (Core)

Many candidates displayed good core chemistry knowledge, while others struggled with specific terminology and reactions. Precise and specific answers were often lacking, and analysis of question stems needs improvement. Data interpretation was generally done well.

Study Tips:

  • Focus on memorizing specific chemical reactions, definitions, and practical procedures.
  • Carefully analyze the stem of the question to identify the specific information being requested.

Common Mistakes:

Q1 (Basic Chemistry Terminology)
Not knowing the difference between atoms, ions, and molecules.
Review basic definitions and examples of atoms, ions, and molecules.
Q2 (Filtration)
Confusing 'filtrate' and 'residue' or incorrectly drawing the filtration setup.
Understand the filtration process and the roles of the filter paper, residue, and filtrate.
Q2 (Sewage/Nitrates)
Giving vague answers about the effects of nitrates rather than specifying deoxygenation.
Learn and use precise language when describing environmental effects.
Q3 (Oxides of Nitrogen)
Giving vague or incorrect answers about the health effects of oxides of nitrogen.
Be specific and list lung irritation or acid rain as adverse effects.
Paper 42 - Theory (Extended)

The overall standard was very high, but some candidates were not familiar with newer syllabus content. Calculations were generally done well, but weaker candidates didn't show working. Candidates must be careful in using subscripts in formulae and upper/lower case in symbols.

Study Tips:

  • Pay attention to detail in chemical formulae and notation.
  • Show all working steps in calculations to maximize potential partial credit.

Common Mistakes:

Q1 (Air Pollution)
Not knowing how to reduce sulfur dioxide emissions.
Learn the methods for reducing sulfur dioxide emissions: low-sulfur fuels and flue gas desulfurisation.
Q1 (Carbon Monoxide Toxicity)
Providing answers beyond the scope of IGCSE chemistry (irrelevant level of biological detail).
Focus on stating that carbon monoxide is a toxic gas.
Q3 (Enthalpy Change)
Vague understanding of enthalpy change (∆H) and its relevance to exothermic reactions.
Learn that ∆H is the enthalpy change and that a negative ∆H indicates an exothermic reaction.
Q3 (Haber Process Pressure)
Misremembering the pressure in kPa for the Haber process.
Memorize the specific conditions for the Haber process: 450 °C, 20 000 kPa / 200 atm.

Insights extracted from the official Cambridge Examiner Report for 0620 March 2023. View full report →

About Cambridge IGCSE Chemistry (0620)

Cambridge IGCSE Chemistry (0620) is one of the most popular qualifications taken by students worldwide. The March 2023 examination session included 6 paper components, each testing different skills and knowledge areas.

This page contains all 0620 past papers from March 2023, including question papers (QP), mark schemes (MS), and examiner reports (ER). Use these resources to practice under timed conditions and understand how examiners award marks.

View all 0620 past papers → | All 2023 sessions →

Get Chemistry Study Tips

Join students preparing for 0620. Get weekly study tips, new past papers alerts, and exam reminders.

0620 Study Tips & FAQ

What are paper variants?

Cambridge releases multiple variants of each paper (e.g., Paper 11, 12, 13) to accommodate different time zones around the world and maintain exam security.

  • Variant 1 (e.g., 11, 21): Usually for Zone 1 (Americas)
  • Variant 2 (e.g., 12, 22): Usually for Zone 2 (Europe, Africa)
  • Variant 3 (e.g., 13, 23): Usually for Zone 3 (Asia, Oceania)

All variants cover the same syllabus and have similar difficulty. Practice with any variant to prepare effectively for your exam.

How to use Mark Schemes effectively

Mark schemes show exactly how examiners award marks for each question. Understanding them helps you write answers that earn full marks.

Example from a Physics mark scheme:

Q: Calculate the speed of a car that travels 150m in 5 seconds. [2]

Mark scheme answer:

• speed = distance / time [1 mark for formula]

• speed = 150 / 5 = 30 m/s [1 mark for correct answer with unit]

Tips:

  • Look for key words that must appear in your answer
  • Note how many points are needed for each mark
  • Check if units are required for the final mark
  • Understand the difference between "state" (brief) and "explain" (detailed)
Understanding Grade Thresholds

Grade thresholds show the minimum marks needed for each grade. They vary each session based on paper difficulty — harder papers have lower thresholds.

Example Grade Thresholds (out of 100 total):

A*
90+
A
80-89
B
70-79
C
60-69

* Actual thresholds vary by subject and session

How to use thresholds:

  • Set realistic target marks based on your goal grade
  • Track your practice paper scores against thresholds
  • Remember: you don't need 100% for an A* — aim for consistency
  • Compare thresholds across sessions to gauge difficulty trends
How is the topic breakdown calculated?

The "Topics Breakdown by Paper" section above shows which syllabus topics are tested in each paper and how many marks they carry. Here's how we calculate this:

Our methodology:

  1. Extract questions: We analyze each question paper (QP) and identify individual questions and their mark allocations (shown in square brackets, e.g., [3]).
  2. Match to syllabus: Each question is matched to the official Cambridge 0620 syllabus topics based on keywords, concepts, and question content.
  3. Sum marks per topic: For each paper, we add up the marks for all questions testing the same topic. For example, if Q1 (4 marks) and Q5b (3 marks) both test "Enzymes", that topic shows as "7 marks" for that paper.

Example: If Paper 3 shows "Photosynthesis - 13 marks", it means questions worth a total of 13 marks (out of the paper's 80 marks) tested the Photosynthesis topic from the Plant Nutrition unit of the syllabus.

How to use this: Look at the paper(s) you'll be taking (e.g., Papers 2, 4, 6 for Extended tier). The topics with the highest marks in YOUR papers are where you should focus your revision. A topic worth 15 marks deserves more study time than one worth 3 marks.

Note: Our topic matching may be inaccurate for questions that span multiple topics. Use this as a guide alongside the official syllabus.

How to Use IGCSE Chemistry Past Papers

📝 Timed Practice

Complete papers under exam conditions. 0620 Paper 4 is 1 hr 15 min - practice finishing within this time to build exam stamina.

✅ Self-Marking

Use the mark scheme to score your answers. Look for marking points you missed and understand what examiners expect in Chemistry responses.

📊 Examiner Reports

Read the 0620 examiner report to see common mistakes. Focus revision on topics where candidates typically lose marks.

🎯 Grade Targets

Check grade thresholds to see how many marks you need for your target grade. An A* in IGCSE Chemistry typically requires 85-90%.

Frequently Asked Questions

Where can I download IGCSE Chemistry March 2023 past papers?
You can download all IGCSE Chemistry (0620) March 2023 past papers directly from this page. We provide 15 files including question papers, mark schemes, and examiner reports for all variants (11, 12, 13). Click "View" to open in browser or "Download" to save the PDF.
Are 0620 mark schemes included?
Yes, mark schemes for all 0620 March 2023 papers are included. Each question paper has a corresponding mark scheme showing expected answers and mark allocation.
What papers are available for IGCSE Chemistry 0620?
IGCSE Chemistry (0620) has 6 papers: Paper 1 (Multiple Choice (Core)), Paper 2 (Multiple Choice (Extended)), Paper 3 (Theory (Core)), Paper 4 (Theory (Extended)), Paper 5 (Practical Test), Paper 6 (Alternative to Practical). Core tier students take Papers 1, 3, 5/6. Extended tier students take Papers 2, 4, 5/6.
What is the difference between paper variants 11, 12, and 13?
The three variants (11, 12, 13) are different versions of the same paper used in different time zones to prevent cheating. All variants test the same syllabus content at the same difficulty level. You can practice with any variant as they are equally valid for revision.
How can I practice these past papers effectively?
Use our free Exam Hub to practice past papers like real exams. It lets you view question papers and mark schemes side-by-side, so you can self-mark your answers. No sign-up required, works with any PDF, and your files stay completely private.

Continue Studying Chemistry

Prepare for these topics before attempting the past papers:

Revision Notes
49 topics covered
Flashcards
457 cards to master
Practice Quiz
Test your knowledge

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