Revising for OCR-A A-Level Chemistry can feel overwhelming - loads of content, tricky calculations and organic mechanisms that all start to blur together 😵💫. But don’t panic! With the right approach and a clear understanding of what each exam paper involves, you can revise more confidently and effectively.
📑 How Many Papers Are There?
👉Three written exam papers
👉One Practical Endorsement (assessed by your teacher)
You will sit three exams at the end of Year 13, and your practical skills are assessed separately during the course.
📑 Paper 1: Breadth in Chemistry
🏆Marks: 70 marks (50% of total grade)
📌Content: Tests the breadth of knowledge across the four modules.
Module 1 - Development of practical skills in chemistry
Practical skills students are expected to develop (e.g., planning, carrying out experiments, analysing and evaluating data). These skills are assessed through written questions in both papers, not as a separate practical exam.
Module 2 - Foundations in chemistry
Atomic structure, compounds and equations
Amount of substance (moles)
Acid–base reactions and redox
Electrons, bonding and structure
Module 3 - Periodic table and energy
Periodicity
Group 2 (alkaline earth metals)
Group 17 (halogens)
Qualitative analysis
Enthalpy changes
Reaction rates and equilibrium (qualitative)
This module covers trends in the periodic table and key physical chemistry ideas.
Module 4 - Core organic chemistry
Organic basics
Hydrocarbons (alkanes & alkenes)
Alcohols and haloalkanes
Organic synthesis
Analytical techniques (IR and mass spectrometry)
Builds organic chemistry knowledge that’s essential for both exams.
❓Question Types:
Multiple choice questions
Usually at the start of the paper
Test recall, understanding and simple calculations
Can cover any topic from the AS course
Short answer questions
Define terms
State trends or facts
Give brief explanations
Structured questions
Several parts linked to one context
May move between topics (e.g. bonding → calculations)
Calculations
Moles and stoichiometry
Concentrations and titrations
Energy changes (using data provided)
Straightforward, often single-step or two-step
Basic practical-based questions
Identify equipment
Describe simple methods
Interpret straightforward results
👉 Overall feel: fast-paced, lots of content, testing how well you know the whole specification ⚡
📑 Paper 2: Depth in Chemistry
⏰Duration: 1 hour 30 minutes
🏆Marks: 70 marks (50 of total grade)
📌Content: This paper takes the same topics covered in paper 1 but pushes you to explain concepts in more depth and apply them in unfamiliar contexts.
Module 1 - Development of practical skills in chemistry
Module 2 - Foundations in chemistry
Module 3 - Periodic table and energy
Module 4 - Core organic chemistry
❓Question Types:
Extended structured questions
Multiple linked parts
Require logical chains of reasoning
Often combine several topics in one question
Multi-step calculations
More challenging mole calculations
Using unfamiliar data
Explaining working and assumptions
Practical and data analysis questions
Analysing graphs or tables
Identifying trends and anomalies
Evaluating experimental methods
Discussing accuracy, precision, errors and improvements
Explanation and justification questions
Explain why something happens
Link structure → properties → behaviour
Use chemical principles, not just facts
Organic chemistry mechanism questions
Curly arrows
Reaction conditions
Predicting products and explaining pathways
👉 Overall feel: slower pace, more thinking, more explanation
📑 Paper 1: Periodic table, elements and physical chemistry
⏰Duration: 2 hours 15 minutes
🏆Marks: 100 marks (37% of total grade)
📌Content: This paper focuses mainly on physical chemistry and inorganic chemistry, alongside underpinning concepts.
Module 1: Practical skills
Practical skills are embedded in questions (e.g., interpreting data, experimental design)
Module 2: Foundations in Chemistry
Atoms, compounds, molecules and equations
Amount of substance (moles)
Acid-base and redox reactions
Electrons, bonding and structure
Module 3: Periodic Table and Energy
Periodicity and trends in the periodic table
Group 2 elements & halogens
Qualitative analysis
Enthalpy changes
Reaction rates and equilibrium (qualitative)
Module 5: Physical Chemistry and Transition Elements
Reaction rates and equilibrium (quantitative)
pH and buffers
Enthalpy, entropy and free energy
Redox and electrode potentials
Transition elements
📌 Big focus: calculations, theory and explaining trends using chemical principles.
❓Question Types:
Multiple-choice questions (MCQs)
Often test key facts, definitions and quick calculations
Can include data interpretation or simple reasoning
Short answer questions
Define key terms
Explain trends (e.g. across a period or down a group)
Recall equations or principles
Calculation questions
Moles, concentrations, pH
Enthalpy changes
Equilibria (Kc, Ka)
Rates and half-life
Longer structured questions
Apply knowledge to unfamiliar situations
Explain chemical behaviour using theory
📌 Skills tested most:
✔️ Mathematical accuracy
✔️ Understanding of physical chemistry concepts
✔️ Clear, logical explanations
📑 Paper 2: Synthesis and analytical techniques
⏰Duration: 2 hours 15 minutes
🏆Marks: 100 marks (37% of total grade)
📌Content: This paper is mainly organic chemistry, plus analysis and practical chemistry.
Module 1: Practical skills
Embedded practical questions and data interpretation
Module 2: Foundations in Chemistry
Basics of atoms and bonding (as needed for foundational reactions)
Module 4: Core Organic Chemistry
Basic organic concepts
Hydrocarbons
Alcohols and haloalkanes
Organic synthesis
Analytical techniques (IR & mass spectrometry)
Module 6: Organic Chemistry and Analysis
Aromatic compounds
Carbonyl compounds
Carboxylic acids & esters
Nitrogen compounds
Polymers
Organic synthesis
Chromatography and NMR spectroscopy
📌 Big focus: applying knowledge, mechanisms and interpreting evidence.
❓Question Types:
Multiple-choice questions
Organic chemistry knowledge
Analysis techniques
Practical understanding
Reaction pathways and synthesis questions
Multi-step organic synthesis routes
Predicting products
Choosing suitable reagents and conditions
Mechanism questions
Curly-arrow mechanisms
Nucleophilic substitution, elimination, electrophilic addition
Correct arrows, charges, and structure
Analytical techniques questions
Interpreting IR, NMR and mass spectra
Identifying unknown compounds
Explaining how evidence supports conclusions
Practical-based questions
Experimental methods
Yield calculations
Evaluating techniques or results
📌 Skills tested most:
✔️ Organic chemistry understanding
✔️ Application rather than recall
✔️ Interpreting unfamiliar data
📑 Paper 3: Unified chemistry
⏰Duration: 1 hour 30 minutes
🏆Marks: 70 marks (26% of total grade)
📌Content: This paper draws content from the entire specification, testing how well students can link topics together.
Any content from Papers 1 and 2
Physical, organic and inorganic chemistry
Calculations from all topics
Practical skills and data analysis
Errors, uncertainties and improvements
Graphs and trends
Experimental design
Evaluating methods and conclusions
Synoptic chemistry
Linking multiple topics in one question
Applying chemistry to unfamiliar contexts
Using chemical principles to justify answers
📌 Big focus: thinking like a chemist - not just recalling facts.
❓Question Types:
Short-answer questions
Recall from any topic across the course
Often linked to earlier answers
Multi-step calculation questions
Combine ideas from different topics
May include experimental data or unfamiliar contexts
Synoptic extended response questions
Link physical, organic and inorganic chemistry
Apply knowledge to new scenarios
Explain reasoning clearly and logically
Practical and data analysis questions
Errors and uncertainties
Graphs and trends
Evaluating experimental methods
📌 Skills tested most:
✔️ Linking topics together
✔️ Problem-solving
✔️ Scientific reasoning and evaluation
✨Here are some top tips to make your revision more effective:
1. Revise paper-by-paper🧠
Organise revision by Paper 1, Paper 2 and Paper 3 (A Level only) so you know where each topic fits. This helps you focus on the skills that matter most for each exam.
2. Practise exam-style questions✍️
Chemistry marks are often lost on:
Missing key words
Poor explanations
Incomplete calculations
Regular exam practice helps you learn how answers need to be written to score full marks.
3. Master calculations early🔁
Topics like moles, equilibrium, energetics and rates appear across all papers. Practise them little and often so they become automatic.
4. Don’t ignore practical chemistry🔬
Be confident with:
Titrations
Errors and uncertainties
Graphs
Data analysis
You’ll see these skills tested in written questions, especially in Papers 2 and 3.
5. Link topics together🧪
Paper 3 (A Level only) loves synoptic thinking - for example, linking energetics to rates, or organic reactions to analytical evidence. Try revising by asking “how does this connect to other topics?”
6. Use a realistic revision timetable🗓️
Spread revision out and mix topics:
One session for physical chemistry
One for organic
One for exam questions
Short, consistent sessions work better than last-minute cramming 📆
🚀 Final Thoughts
OCR-A A-Level Chemistry is challenging, but it’s also very predictable once you understand the structure of the exams. With regular practice, clear revision strategies and confidence in your skills, you can absolutely succeed 🙌
You’ve got this - one reaction at a time! ⚗️
