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Cambridge IGCSE Timetable 2025 for Zone 6
Welcome to the Cambridge IGCSE Timetable 2025 for Zone 6. This comprehensive guide outlines the detailed exam schedule for all subjects, helping you plan your revision effectively. Whether you’re preparing for Mathematics, Sciences, Languages, or Humanities, this timetable will ensure you’re well-organized for your exams.
📅 Cambridge IGCSE Exam Timetable 2025 for Zone 6
First Language Subjects
| Syllabus/Component | Code | Duration | Date | Session |
|---|---|---|---|---|
| First Language Chinese | 0509/13 | 2h 15m | Friday 25 April 2025 | PM |
| First Language Chinese | 0509/23 | 2h | Monday 28 April 2025 | PM |
| First Language English (Oral Endorsement) | 0500/13 | 2h | Friday 09 May 2025 | AM |
| First Language English (Oral Endorsement) | 0500/23 | 2h | Thursday 15 May 2025 | AM |
| First Language Spanish | 0502/13 | 2h | Tuesday 27 May 2025 | AM |
| First Language Spanish | 0502/23 | 2h | Thursday 29 May 2025 | AM |
Mathematics
Cambridge IGCSE Timetable 2025 for Zone 6
| Syllabus/Component | Code | Duration | Date | Session |
|---|---|---|---|---|
| Mathematics (Without Coursework) (Core) | 0580/13 | 1h 30m | Wednesday 30 April 2025 | PM |
| Mathematics (Without Coursework) (Extended) | 0580/23 | 2h | Wednesday 30 April 2025 | PM |
| Mathematics (Without Coursework) (Core) | 0580/33 | 1h 30m | Wednesday 07 May 2025 | PM |
| Mathematics (Without Coursework) (Extended) | 0580/43 | 2h | Wednesday 07 May 2025 | PM |
Sciences
Cambridge IGCSE Timetable 2025 for Zone 6
| Syllabus/Component | Code | Duration | Date | Session |
|---|---|---|---|---|
| Biology (Multiple Choice – Core) | 0610/13 | 45m | Thursday 12 June 2025 | AM |
| Biology (Multiple Choice – Extended) | 0610/23 | 45m | Thursday 12 June 2025 | AM |
| Chemistry (Multiple Choice – Core) | 0620/13 | 45m | Wednesday 11 June 2025 | AM |
| Chemistry (Multiple Choice – Extended) | 0620/23 | 45m | Wednesday 11 June 2025 | AM |
| Physics (Multiple Choice – Core) | 0625/13 | 45m | Thursday 05 June 2025 | AM |
| Physics (Multiple Choice – Extended) | 0625/23 | 45m | Thursday 05 June 2025 | AM |
Humanities
Cambridge IGCSE Timetable 2025 for Zone 6
| Syllabus/Component | Code | Duration | Date | Session |
|---|---|---|---|---|
| History | 0470/13 | 2h | Friday 09 May 2025 | PM |
| History | 0470/23 | 1h 45m | Friday 16 May 2025 | PM |
| Geography | 0460/13 | 1h 45m | Tuesday 06 May 2025 | PM |
| Geography | 0460/23 | 1h 30m | Thursday 15 May 2025 | PM |
| Sociology | 0495/13 | 2h | Thursday 22 May 2025 | PM |
| Sociology | 0495/23 | 1h 45m | Tuesday 27 May 2025 | PM |
Languages
Cambridge IGCSE Timetable 2025 for Zone 6
| Syllabus/Component | Code | Duration | Date | Session |
|---|---|---|---|---|
| French (Listening – Multiple Choice) | 0520/13 | 50m | Wednesday 04 June 2025 | AM |
| French | 0520/23 | 1h | Thursday 08 May 2025 | AM |
| German (Listening – Multiple Choice) | 0525/13 | 50m | Tuesday 29 April 2025 | PM |
| German | 0525/23 | 1h | Friday 16 May 2025 | PM |
| Spanish (Listening – Multiple Choice) | 0530/13 | 50m | Friday 23 May 2025 | PM |
| Spanish | 0530/23 | 1h | Wednesday 21 May 2025 | PM |
| Urdu as a Second Language | 0539/01 | 2h | Tuesday 13 May 2025 | AM |
| Urdu as a Second Language (Listening) | 0539/02 | 45m | Wednesday 30 April 2025 | AM |
Business & Economics
Cambridge IGCSE Timetable 2025 for Zone 6
| Syllabus/Component | Code | Duration | Date | Session |
|---|---|---|---|---|
| Accounting (Multiple Choice) | 0452/13 | 1h 15m | Friday 30 May 2025 | AM |
| Accounting | 0452/23 | 1h 45m | Thursday 22 May 2025 | AM |
| Business Studies | 0450/13 | 1h 30m | Saturday 17 May 2025 | AM |
| Business Studies | 0450/23 | 1h 30m | Tuesday 20 May 2025 | AM |
| Economics (Multiple Choice) | 0455/13 | 45m | Friday 06 June 2025 | AM |
| Economics | 0455/23 | 2h 15m | Saturday 24 May 2025 | AM |
✅ Conclusion
The Cambridge IGCSE Timetable 2025 for Zone 6 is designed to help you manage your preparation effectively. Use this timetable to plan your studies, set revision goals, and stay organized during the exam season. Success comes with consistent effort and strategic planning, so make the most of your time and resources.
✅ 722880-june-2025-zone-6-timetable-Ultimate CAIE June 2025 Exams Zone 6 Timetable Download in PDF from Cambridge Classroom
Cambridge IGCSE Timetable 2025 for Zone 6 (Continued)
Welcome to the continuation of the Cambridge IGCSE Timetable 2025 for Zone 6. This section includes the exam schedule for Travel & Tourism, Urdu as a Second Language, and World Literature. Stay organized, plan effectively, and make sure you don’t miss any important dates!
📆 Cambridge IGCSE Exam Timetable 2025 (Zone 6 Continued)
Travel & Tourism Cambridge IGCSE Timetable 2025 for Zone 6
| Syllabus/Component | Code | Duration | Date | Session |
|---|---|---|---|---|
| Travel & Tourism | 0471/13 | 1h 30m | Friday 09 May 2025 | PM |
| Travel & Tourism | 0471/23 | 2h | Thursday 22 May 2025 | PM |
Prepare thoroughly for Travel & Tourism with real-world examples and case studies to excel in your exams. This subject not only tests your theoretical knowledge but also your understanding of global tourism trends.
Urdu as a Second Language Cambridge IGCSE Timetable 2025 for Zone 6
| Syllabus/Component | Code | Duration | Date | Session |
|---|---|---|---|---|
| Urdu as a Second Language | 0539/01 | 2h | Wednesday 14 May 2025 | AM |
| Urdu as a Second Language (Listening) | 0539/02 | 45m | Thursday 01 May 2025 | AM |
Focus on improving both your writing and listening skills. Practice past papers and listening exercises to build confidence for the exam day.
World Literature Cambridge IGCSE Timetable 2025 for Zone 6
| Syllabus/Component | Code | Duration | Date | Session |
|---|---|---|---|---|
| World Literature | 0408/23 | 1h 15m | Tuesday 13 May 2025 | AM |
| World Literature | 0408/33 | 1h 30m | Friday 16 May 2025 | AM |
World Literature offers a rich exploration of texts from diverse cultures. Be sure to analyze literary devices, themes, and characters thoroughly to excel in your essays and analysis tasks.
✅ Final Notes
The Cambridge IGCSE Timetable 2025 for Zone 6 is now complete with this additional data. Use this timetable as your strategic guide to plan your study schedule. Consistency, time management, and practice are the keys to success.
✅ 722880-june-2025-zone-6-timetable-Ultimate CAIE June 2025 Exams Zone 6 Timetable Download in PDF from Cambridge Classroom
Cambridge International AS Level Timetable 2025 for Zone 6
Welcome to the Cambridge International AS Level Timetable 2025 for Zone 6. This comprehensive guide provides all the essential exam schedules to help you prepare effectively for your upcoming assessments. Staying organized and informed is key to achieving your academic goals. Let’s dive into the detailed exam timetable.
📚 Cambridge AS Level Timetable 2025 (Zone 6)
A – Accounting Cambridge International AS Level Zone 6
| Syllabus/Component | Code | Duration | Date | Session |
|---|---|---|---|---|
| Accounting (Multiple Choice) | 9706/13 | 1h | Wednesday 04 June 2025 | PM |
| Accounting | 9706/23 | 1h 45m | Tuesday 13 May 2025 | PM |
B – Biology & Business Cambridge International AS Level Zone 6
| Syllabus/Component | Code | Duration | Date | Session |
|---|---|---|---|---|
| Biology (Multiple Choice) | 9700/13 | 1h 15m | Wednesday 11 June 2025 | AM |
| Biology | 9700/23 | 1h 15m | Friday 16 May 2025 | AM |
| Biology (Practical – Advanced) | 9700/35 | 2h | Friday 09 May 2025 | AM |
| Business | 9609/13 | 1h 15m | Tuesday 06 May 2025 | PM |
| Business | 9609/23 | 1h 30m | Monday 12 May 2025 | PM |
C – Chemistry & Computer Science Cambridge International AS Level Zone 6
| Syllabus/Component | Code | Duration | Date | Session |
|---|---|---|---|---|
| Chemistry (Multiple Choice) | 9701/13 | 1h 15m | Thursday 05 June 2025 | AM |
| Chemistry | 9701/23 | 1h 15m | Tuesday 20 May 2025 | AM |
| Chemistry (Practical – Advanced) | 9701/35 | 2h | Wednesday 07 May 2025 | AM |
| Computer Science | 9618/13 | 1h 30m | Friday 09 May 2025 | PM |
| Computer Science | 9618/23 | 2h | Thursday 15 May 2025 | PM |
D – Design & Technology, Drama Cambridge International AS Level Zone 6
| Syllabus/Component | Code | Duration | Date | Session |
|---|---|---|---|---|
| Design & Technology | 9705/13 | 2h 15m | Wednesday 30 April 2025 | PM |
| Drama | 9482/13 | 2h | Thursday 22 May 2025 | AM |
E – Economics, English & Environmental Management Cambridge International AS Level Zone 6
| Syllabus/Component | Code | Duration | Date | Session |
|---|---|---|---|---|
| Economics (Multiple Choice) | 9708/13 | 1h | Tuesday 10 June 2025 | AM |
| Economics | 9708/23 | 2h | Thursday 15 May 2025 | AM |
| English General Paper | 8021/13 | 1h 15m | Saturday 26 April 2025 | AM |
| English General Paper | 8021/23 | 1h 45m | Wednesday 30 April 2025 | AM |
| English Language | 9093/13 | 2h 15m | Thursday 01 May 2025 | AM |
| English Language | 9093/23 | 2h | Tuesday 06 May 2025 | AM |
| Environmental Management | 8291/13 | 1h 45m | Wednesday 30 April 2025 | AM |
| Environmental Management | 8291/23 | 1h 45m | Tuesday 06 May 2025 | AM |
F – French & Further Mathematics Cambridge International AS Level Zone 6
| Syllabus/Component | Code | Duration | Date | Session |
|---|---|---|---|---|
| French Language (Listening – Multiple Choice) | 8028/13 | 1h | Tuesday 20 May 2025 | PM |
| French Language (Multiple Choice) | 8028/23 | 1h 30m | Friday 23 May 2025 | PM |
| French Language | 8028/33 | 1h 30m | Saturday 26 April 2025 | PM |
| Further Mathematics | 9231/13 | 2h | Thursday 08 May 2025 | PM |
| Further Mathematics | 9231/33 | 1h 30m | Monday 26 May 2025 | PM |
| Further Mathematics | 9231/43 | 1h 30m | Friday 30 May 2025 | PM |
✅ Final Notes
This timetable includes the complete schedule for the Cambridge International AS Level Zone 6. Make sure to mark your calendars, set reminders, and follow a structured study plan. Time management and practice with past papers are crucial for success.
✅ 722880-june-2025-zone-6-timetable-Ultimate CAIE June 2025 Exams Zone 6 Timetable Download in PDF from Cambridge Classroom
📅 Cambridge International A Level May/June 2025 Examination Timetable – Zone 6
Helping Students, Teachers, and Parents Plan Ahead
🗓️ Key Dates for Zone 6
Examination Period: April 26, 2025 – June 12, 2025
Results Release: August 12, 2025
📚 Subject-wise Timetable for Zone 6
Below is the complete timetable for Zone 6. All dates and times are in local time.
🌞 Morning Sessions (AM)
| Date | Subject Code | Subject Name | Paper | Duration |
|---|---|---|---|---|
| Tuesday, 13 May 2025 | 9700/43 | Biology | Paper 43 | 2h |
| Friday, 16 May 2025 | 9700/53 | Biology | Paper 53 | 1h 15m |
| Saturday, 10 May 2025 | 9701/43 | Chemistry | Paper 43 | 2h |
| Tuesday, 20 May 2025 | 9701/53 | Chemistry | Paper 53 | 1h 15m |
| Friday, 23 May 2025 | 9708/43 | Economics | Paper 43 | 2h |
| Tuesday, 13 May 2025 | 9093/33 | English Language | Paper 33 | 2h 15m |
| Saturday, 24 May 2025 | 9093/43 | English Language | Paper 43 | 2h 15m |
| Saturday, 31 May 2025 | 9898/13 | French Language & Literature (Multiple Choice) | Paper 13 | 1h 30m |
| Saturday, 26 April 2025 | 9898/23 | French Language & Literature | Paper 23 | 2h |
| Wednesday, 28 May 2025 | 9898/33 | French Language & Literature | Paper 33 | 2h |
| Thursday, 22 May 2025 | 9696/33 | Geography (Advanced) | Paper 33 | 1h 30m |
| Saturday, 24 May 2025 | 9696/43 | Geography (Advanced) | Paper 43 | 1h 30m |
| Wednesday, 04 June 2025 | 9897/13 | German Language & Literature (Multiple Choice) | Paper 13 | 1h 30m |
| Tuesday, 27 May 2025 | 9897/23 | German Language & Literature | Paper 23 | 2h |
| Thursday, 29 May 2025 | 9897/33 | German Language & Literature | Paper 33 | 2h |
| Wednesday, 04 June 2025 | 9084/33 | Law | Paper 33 | 1h 30m |
| Friday, 06 June 2025 | 9084/43 | Law | Paper 43 | 1h 30m |
| Thursday, 22 May 2025 | 9695/33 | Literature in English | Paper 33 | 2h |
| Saturday, 24 May 2025 | 9695/43 | Literature in English | Paper 43 | 2h |
| Wednesday, 14 May 2025 | 9990/33 | Psychology | Paper 33 | 1h 30m |
| Saturday, 17 May 2025 | 9990/43 | Psychology | Paper 43 | 1h 30m |
| Tuesday, 13 May 2025 | 9844/13 | Spanish Language & Literature (Multiple Choice) | Paper 13 | 1h 30m |
| Thursday, 01 May 2025 | 9844/23 | Spanish Language & Literature | Paper 23 | 2h |
| Saturday, 10 May 2025 | 9844/33 | Spanish Language & Literature | Paper 33 | 2h |
| Thursday, 08 May 2025 | 9694/33 | Thinking Skills | Paper 33 | 2h |
| Tuesday, 13 May 2025 | 9694/43 | Thinking Skills | Paper 43 | 1h 45m |
| Wednesday, 21 May 2025 | 9395/33 | Travel & Tourism | Paper 33 | 1h 30m |
| Friday, 23 May 2025 | 9395/43 | Travel & Tourism | Paper 43 | 1h 30m |
🌆 Afternoon Sessions (PM)
| Date | Subject Code | Subject Name | Paper | Duration |
|---|---|---|---|---|
| Thursday, 15 May 2025 | 9706/33 | Accounting | Paper 33 | 1h 30m |
| Thursday, 22 May 2025 | 9706/43 | Accounting | Paper 43 | 1h |
| Friday, 16 May 2025 | 9609/33 | Business | Paper 33 | 1h 45m |
| Tuesday, 20 May 2025 | 9609/43 | Business | Paper 43 | 1h 15m |
| Wednesday, 21 May 2025 | 9618/33 | Computer Science (Advanced) | Paper 33 | 1h 30m |
| Thursday, 08 May 2025 | 9705/33 | Design & Technology | Paper 33 | 2h 30m |
| Thursday, 12 June 2025 | 9708/33 | Economics (Multiple Choice) | Paper 33 | 1h 15m |
| Thursday, 15 May 2025 | 9489/33 | History | Paper 33 | 1h 15m |
| Tuesday, 20 May 2025 | 9489/43 | History | Paper 43 | 1h 45m |
| Wednesday, 21 May 2025 | 9626/33 | Information Technology (Advanced) | Paper 33 | 1h 45m |
| Monday, 05 May 2025 | 9693/33 | Marine Science | Paper 33 | 1h 45m |
| Thursday, 08 May 2025 | 9693/43 | Marine Science | Paper 43 | 1h 45m |
| Monday, 19 May 2025 | 9709/33 | Mathematics (Pure Mathematics 3) | Paper 33 | 1h 50m |
| Wednesday, 07 May 2025 | 9709/63 | Mathematics (Probability & Statistics 2) | Paper 63 | 1h 15m |
| Tuesday, 20 May 2025 | 9607/43 | Media Studies | Paper 43 | 2h |
| Tuesday, 27 May 2025 | 9699/33 | Sociology | Paper 33 | 1h 15m |
| Thursday, 29 May 2025 | 9699/43 | Sociology | Paper 43 | 1h 45m |
🌙 Evening Sessions (PM)
| Date | Subject Code | Subject Name | Paper | Duration |
|---|---|---|---|---|
| Saturday, 17 May 2025 | 9702/43 | Physics | Paper 43 | 2h |
| Wednesday, 21 May 2025 | 9702/53 | Physics | Paper 53 | 1h 15m |
| Tuesday, 06 May 2025 | 9718/02 | Portuguese | Paper 2 | 1h 45m |
| Friday, 09 May 2025 | 9718/03 | Portuguese | Paper 3 | 1h 30m |
| Wednesday, 04 June 2025 | 9718/04 | Portuguese | Paper 4 | 2h 30m |
📌 Important Notes for Zone 6
Arrive Early: Students must arrive at least 30 minutes before the exam starts.
Bring Required Materials: Ensure you have your admission ticket, ID, and stationery.
Check Updates: Visit the official Cambridge website for any last-minute changes.
💡 Tips for Students
Plan Ahead: Use this timetable to create a study schedule.
Stay Calm: Practice mindfulness and take breaks during preparation.
Revise Effectively: Focus on past papers and key concepts.
🌟 Emotional Appeal
This timetable is designed to help you stay organized, reduce stress, and achieve your goals. Remember, every exam is a step closer to your dreams. You’ve got this!
🔍
Cambridge A Level Timetable 2025, Zone 6 Exam Schedule, May/June 2025 Exams.
Cambridge A Level Zone 6, Exam Dates 2025, Cambridge Timetable for Students.
“Get the complete Cambridge A Level May/June 2025 Zone 6 timetable. Plan your exams with ease and stay ahead with this detailed schedule for students, teachers, and parents.”
Cambridge International AS Level May/June 2025 Examination Timetable: Zone 6
The Cambridge International AS Level examinations are a critical step in a student’s academic journey, paving the way for higher education and future career opportunities. For students in Zone 6, which includes regions like South Asia, the Middle East, and parts of Africa, the May/June 2025 timetable is now available. This comprehensive guide will help you navigate the schedule, plan your preparation, and maximize your performance.
Why the AS Level Timetable Matters
The AS Level exams are designed to test your understanding, analytical skills, and application of knowledge. With subjects ranging from Accounting to Physics, the timetable ensures that students can:
- Plan their study schedules effectively.
- Avoid last-minute stress by knowing exact dates and times.
- Allocate sufficient time for revision and practice.
- Balance multiple subjects without overlapping preparation.
Key Features of the AS Level May/June 2025 Timetable
The timetable is structured to accommodate a wide range of subjects, with sessions in the morning (AM) and afternoon (PM). Here’s a breakdown of the key components:
- Core Subjects
- Accounting: Multiple Choice and Structured Questions.
- Biology: Theory and Practical Papers.
- Chemistry: Multiple Choice, Theory, and Practical Papers.
- Physics: Multiple Choice, Theory, and Practical Papers.
- Humanities and Social Sciences
- Economics: Multiple Choice and Structured Questions.
- History: Document-Based and Essay Papers.
- Sociology: Theory and Application Papers.
- Languages
- French, German, Spanish, and Urdu: Listening, Reading, and Writing Components.
- Mathematics and Sciences
- Mathematics: Pure Mathematics, Mechanics, and Probability & Statistics.
- Further Mathematics: Advanced Papers.
- Creative and Technical Subjects
- Design & Technology: Theory and Practical Papers.
- Music: Listening and Analysis.
- Computer Science: Theory and Problem-Solving Papers.
How to Use the AS Level Timetable Effectively
- Create a Study Plan: Break down your syllabus into manageable chunks and allocate time for each subject.
- Prioritize Weak Areas: Focus more on subjects or topics where you need improvement.
- Practice Past Papers: Use resources like Cambridge Classroom’s Past Papers to familiarize yourself with the exam format.
- Stay Consistent: Stick to your study schedule and avoid procrastination.
- Take Breaks: Incorporate short breaks to avoid burnout and maintain productivity.
Top Resources for AS Level Exam Preparation
To excel in your exams, you need the right resources. Here are some of the best tools and courses available:
- Crash Courses for Intensive Preparation
- O-Level Chemistry 5070 and IGCSE Chemistry 0620 Crash Course: Perfect for last-minute revision.
- Crash Course for Chemistry 5070/0620: A fast-track program to master key concepts.
- Comprehensive Lesson Plans
- Mastering States of Matter for Chemistry 5070/0620: Detailed lessons on essential topics.
- Electrochemistry Made Simple: Simplify complex topics with expert guidance.
- Past Papers and Solved Papers
- Free Download Past Papers for O-Level and IGCSE: Access a vast library of past papers.
- Solved Papers for O-Level Chemistry 5070: Practice with solved papers to understand marking schemes.
- Interactive Learning Tools
- CIE Periodic Table Mastery: Unlock the secrets of the periodic table.
- QR Code Generator: Create QR codes for quick access to study materials.
Testimonials from Students, Parents, and Teachers
Here’s what people are saying about their experiences with Cambridge Classroom and exam preparation:
Student Testimonials
- Aisha, Pakistan: “The crash course for Chemistry 5070 was a game-changer for me. I went from struggling to scoring an A*!”
- Rahul, India: “The past papers and solved papers helped me understand the exam pattern and improve my time management.”
- Fatima, UAE: “The lesson plans were so detailed and easy to follow. I felt confident going into my exams.”
Parent Testimonials
- Mrs. Khan, UK: “Cambridge Classroom’s resources made a huge difference in my son’s preparation. Highly recommend!”
- Mr. Patel, USA: “The courses are affordable and effective. My daughter improved her grades significantly.”
Teacher Testimonials
- Ms. Lee, Singapore: “I use Cambridge Classroom’s lesson plans in my classes. They are comprehensive and save me a lot of time.”
- Mr. Ahmed, Saudi Arabia: “The past papers and solved papers are excellent resources for both teachers and students.”
Tips for Acing the AS Level Exams
- Start Early: Don’t wait until the last minute to begin your preparation.
- Stay Organized: Use a planner or digital tools to track your progress.
- Seek Help When Needed: Don’t hesitate to ask teachers or use online resources like Cambridge Classroom.
- Practice Regularly: Consistent practice is key to mastering any subject.
- Stay Healthy: Eat well, sleep enough, and exercise to keep your mind sharp.
Frequently Asked Questions (FAQs)
- Where can I find the official AS Level May/June 2025 timetable for Zone 6?
The official timetable is usually released by Cambridge International. You can also check Cambridge Classroom’s website for updates.
- How can I download past papers for free?
Visit Cambridge Classroom’s Past Papers Section to access a wide range of past papers.
- Are crash courses effective for last-minute preparation?
Yes, crash courses like the O-Level Chemistry 5070 Crash Course are designed to help students revise quickly and effectively.
- How can I improve my time management during exams?
Practice with timed past papers and create a study schedule that mimics exam conditions.
Conclusion
The AS Level May/June 2025 timetable for Zone 6 is your roadmap to success. By using this guide, along with the resources and tips provided, you can approach your exams with confidence and achieve your academic goals. Remember, preparation is the key to success, and with the right tools and mindset, you can excel in your exams.
For more information, visit Cambridge Classroom and explore their wide range of courses, past papers, and study materials. Good luck!
AS Level May/June 2025 timetable, Zone 6, Cambridge exams, AS Level preparation, past papers, crash courses, Cambridge Classroom, study resources, exam tips.
Unlock Your CAIE 2025 Exam Timetable by Zone: Quick Access
Make your exam preparation easier and faster by downloading the official CAIE May/June 2025 timetables for your respective exam zone. Choose your zone below and get started!
📅 Zone 1: CAIE Datesheet Timetable for 2025
Download the Official CAIE May/June 2025 Timetable for Zone 1
Plan your studies with the comprehensive and detailed timetable for Zone 1, including O-Level, A-Level, and IGCSE exams. Perfect for students in Asia, Africa, and the Middle East.
📅 Zone 2: CAIE Datesheet Timetable for 2025
Access the Ultimate CAIE 2025 Exam Timetable for Zone 2
Stay ahead with the full exam schedule for Zone 2. Download it now and ensure you don’t miss any important dates for your CAIE exams.
📅 Zone 3: CAIE Datesheet Timetable for 2025
Get the Full CAIE May/June 2025 Exam Timetable for Zone 3
Don’t miss any deadlines! Download the official timetable for Zone 3 exams today. Ideal for students in South Asia, Europe, and Oceania.
📅 Zone 4: CAIE Datesheet Timetable for 2025
Download CAIE May/June 2025 Exam Timetable for Zone 4
Plan your revision smartly with the complete exam schedule for Zone 4. Stay on top of your exams with our user-friendly download option.
📅 Zone 5: CAIE Datesheet Timetable for 2025
Get the CAIE May/June 2025 Exam Timetable for Zone 5
Ensure you’re fully prepared for your 2025 exams with the complete timetable for Zone 5. Simplify your exam planning and avoid last-minute stress.
📅 Zone 6: CAIE Datesheet Timetable for 2025
Download the Official CAIE May/June 2025 Timetable for Zone 6
Access the official 2025 timetable for Zone 6 now! Stay organized and on track for your upcoming CAIE exams.
![Fundamental Concepts & States of Matter • Atom: The smallest particle of an element that can exist, made of a nucleus (protons and neutrons) and electrons orbiting it. • Element: A pure substance consisting of only one type of atom, which cannot be broken down into simpler substances by chemical means. • Compound: A substance formed when two or more different elements are chemically bonded together in a fixed ratio. • Mixture: A substance containing two or more elements or compounds not chemically bonded together. Can be separated by physical means. • Molecule: A group of two or more atoms held together by chemical bonds. • Proton: A subatomic particle found in the nucleus with a relative mass of 1 and a charge of +1. • Neutron: A subatomic particle found in the nucleus with a relative mass of 1 and no charge (0). • Electron: A subatomic particle orbiting the nucleus with a negligible relative mass and a charge of -1. • Atomic Number (Z): The number of protons in the nucleus of an atom. Defines the element. • Mass Number (A): The total number of protons and neutrons in the nucleus of an atom. • Isotopes: Atoms of the same element (same atomic number) but with different mass numbers due to a different number of neutrons. • Relative Atomic Mass ($A_r$): The weighted average mass of an atom of an element compared to $1/12$th the mass of a carbon-12 atom. • Relative Molecular Mass ($M_r$): The sum of the relative atomic masses of all atoms in one molecule of a compound. • Relative Formula Mass ($M_r$): The sum of the relative atomic masses of all atoms in the formula unit of an ionic compound. • Mole: The amount of substance that contains $6.02 \times 10^{23}$ particles (Avogadro's number). • Molar Mass: The mass of one mole of a substance, expressed in g/mol. Numerically equal to $A_r$ or $M_r$. • Empirical Formula: The simplest whole number ratio of atoms of each element in a compound. • Molecular Formula: The actual number of atoms of each element in a molecule. • Solid: Particles are closely packed in a fixed, regular arrangement, vibrate about fixed positions. Definite shape and volume. • Liquid: Particles are closely packed but randomly arranged, can slide past each other. Definite volume, no definite shape. • Gas: Particles are far apart and arranged randomly, move rapidly and randomly. No definite shape or volume. • Melting Point: The specific temperature at which a solid changes into a liquid at a given pressure. • Boiling Point: The specific temperature at which a liquid changes into a gas (vaporizes) at a given pressure. • Sublimation: The direct change of state from solid to gas without passing through the liquid phase (e.g., solid $\text{CO}_2$). • Diffusion: The net movement of particles from a region of higher concentration to a region of lower concentration, due to random motion. • Osmosis: The net movement of water molecules across a partially permeable membrane from a region of higher water potential to a region of lower water potential. 2. Structure & Bonding • Ionic Bond: The electrostatic force of attraction between oppositely charged ions, formed by the transfer of electrons from a metal to a non-metal. • Covalent Bond: A strong electrostatic force of attraction between a shared pair of electrons and the nuclei of the bonded atoms, typically between two non-metals. • Metallic Bond: The electrostatic force of attraction between positive metal ions and delocalised electrons. • Ion: An atom or group of atoms that has gained or lost electrons, resulting in a net electrical charge. • Cation: A positively charged ion (lost electrons). • Anion: A negatively charged ion (gained electrons). • Octet Rule: Atoms tend to gain, lose, or share electrons in order to achieve a full outer electron shell, typically with eight electrons. • Giant Ionic Lattice: A regular, repeating 3D arrangement of oppositely charged ions, held together by strong electrostatic forces. • Simple Molecular Structure: Molecules held together by strong covalent bonds, but with weak intermolecular forces between molecules. • Giant Covalent Structure (Macromolecular): A large structure where all atoms are held together by strong covalent bonds in a continuous network (e.g., diamond, silicon dioxide). • Allotropes: Different structural forms of the same element in the same physical state (e.g., diamond and graphite are allotropes of carbon). • Electronegativity: The power of an atom to attract the electron pair in a covalent bond to itself. • Polar Covalent Bond: A covalent bond in which electrons are shared unequally due to a difference in electronegativity between the bonded atoms. • Hydrogen Bond: A strong type of intermolecular force that occurs between molecules containing hydrogen bonded to a highly electronegative atom (N, O, F). • Van der Waals' forces: Weak intermolecular forces of attraction between all molecules, arising from temporary dipoles. 3. Stoichiometry & Chemical Calculations • Stoichiometry: The study of quantitative relationships between reactants and products in chemical reactions. • Limiting Reactant: The reactant that is completely consumed in a chemical reaction, determining the maximum amount of product that can be formed. • Excess Reactant: The reactant present in a greater amount than required to react with the limiting reactant. • Yield: The amount of product obtained from a chemical reaction. • Theoretical Yield: The maximum amount of product that can be formed from a given amount of reactants, calculated using stoichiometry. • Actual Yield: The amount of product actually obtained from a chemical reaction, usually less than the theoretical yield. • Percentage Yield: $($Actual Yield $/$ Theoretical Yield$) \times 100\%$. • Concentration: The amount of solute dissolved in a given volume of solvent or solution. Often expressed in mol/dm$^3$ (molarity) or g/dm$^3$. • Solute: The substance that dissolves in a solvent to form a solution. • Solvent: The substance in which a solute dissolves to form a solution. • Solution: A homogeneous mixture formed when a solute dissolves in a solvent. 4. Chemical Reactions & Energetics • Chemical Reaction: A process that involves rearrangement of the atomic structure of substances, resulting in the formation of new substances. • Reactants: The starting substances in a chemical reaction. • Products: The substances formed as a result of a chemical reaction. • Word Equation: An equation that uses the names of the reactants and products. • Symbol Equation: An equation that uses chemical symbols and formulae to represent reactants and products, and is balanced. • Balancing Equation: Ensuring the number of atoms of each element is the same on both sides of a chemical equation. • Redox Reaction: A reaction involving both reduction and oxidation. • Oxidation: Loss of electrons, gain of oxygen, or loss of hydrogen. Increase in oxidation state. • Reduction: Gain of electrons, loss of oxygen, or gain of hydrogen. Decrease in oxidation state. • Oxidising Agent: A substance that causes oxidation by accepting electrons (and is itself reduced). • Reducing Agent: A substance that causes reduction by donating electrons (and is itself oxidised). • Exothermic Reaction: A reaction that releases energy to the surroundings, usually as heat, causing the temperature of the surroundings to rise. $\Delta H$ is negative. • Endothermic Reaction: A reaction that absorbs energy from the surroundings, usually as heat, causing the temperature of the surroundings to fall. $\Delta H$ is positive. • Activation Energy ($E_a$): The minimum amount of energy required for reactants to collide effectively and initiate a chemical reaction. • Catalyst: A substance that increases the rate of a chemical reaction without being chemically changed itself, by providing an alternative reaction pathway with a lower activation energy. • Enthalpy Change ($\Delta H$): The heat energy change measured at constant pressure for a reaction. • Standard Enthalpy of Formation ($\Delta H_f^\circ$): The enthalpy change when one mole of a compound is formed from its constituent elements in their standard states under standard conditions. • Standard Enthalpy of Combustion ($\Delta H_c^\circ$): The enthalpy change when one mole of a substance is completely combusted in oxygen under standard conditions. • Hess's Law: The total enthalpy change for a reaction is independent of the route taken, provided the initial and final conditions are the same. 5. Rates of Reaction & Equilibrium • Rate of Reaction: The change in concentration of a reactant or product per unit time. • Collision Theory: For a reaction to occur, reactant particles must collide with sufficient energy (activation energy) and correct orientation. • Factors Affecting Rate: Concentration, pressure (for gases), surface area, temperature, and presence of a catalyst. • Reversible Reaction: A reaction where products can react to reform the original reactants, indicated by $\rightleftharpoons$. • Chemical Equilibrium: A state in a reversible reaction where the rate of the forward reaction is equal to the rate of the reverse reaction, and the concentrations of reactants and products remain constant. • Le Chatelier's Principle: If a change in conditions (temperature, pressure, concentration) is applied to a system at equilibrium, the system will shift in a direction that counteracts the change. 6. Acids, Bases & Salts • Acid: A substance that produces hydrogen ions ($H^+$) when dissolved in water (Arrhenius definition) or a proton donor (Brønsted-Lowry definition). • Base: A substance that produces hydroxide ions ($OH^-$) when dissolved in water (Arrhenius definition) or a proton acceptor (Brønsted-Lowry definition). • Alkali: A soluble base that dissolves in water to produce hydroxide ions ($OH^-$). • Salt: A compound formed when the hydrogen ion of an acid is replaced by a metal ion or an ammonium ion. • Neutralisation: The reaction between an acid and a base (or alkali) to form a salt and water. $H^+(aq) + OH^-(aq) \rightarrow H_2O(l)$. • pH: A measure of the acidity or alkalinity of a solution, defined as $-\log_{10}[H^+]$. Scale from 0 to 14. • Strong Acid: An acid that fully dissociates (ionizes) in water (e.g., HCl, $H_2SO_4$). • Weak Acid: An acid that partially dissociates (ionizes) in water (e.g., $CH_3COOH$). • Strong Base: A base that fully dissociates in water (e.g., NaOH, KOH). • Weak Base: A base that partially dissociates in water (e.g., $NH_3$). • Amphoteric: A substance that can act as both an acid and a base (e.g., aluminium oxide, water). • Titration: A quantitative chemical analysis method used to determine the unknown concentration of a reactant using a known concentration of another reactant. • Indicator: A substance that changes colour over a specific pH range, used to detect the endpoint of a titration. 7. Electrochemistry • Electrolysis: The decomposition of an ionic compound using electrical energy. Requires molten or aqueous electrolyte. • Electrolyte: An ionic compound (molten or dissolved in a solvent) that conducts electricity due to the movement of ions. • Electrodes: Conductors (usually metal or graphite) through which electricity enters and leaves the electrolyte. • Anode: The positive electrode, where oxidation occurs (anions are attracted). • Cathode: The negative electrode, where reduction occurs (cations are attracted). • Faraday's Laws of Electrolysis: Relate the amount of substance produced at an electrode to the quantity of electricity passed through the electrolyte. • Galvanic (Voltaic) Cell: An electrochemical cell that generates electrical energy from spontaneous redox reactions. • Standard Electrode Potential ($E^\circ$): The potential difference of a half-cell compared to a standard hydrogen electrode under standard conditions (1 M concentration, 1 atm pressure for gases, 298 K). • Electrochemical Series: A list of elements arranged in order of their standard electrode potentials, indicating their relative reactivity as oxidising or reducing agents. 8. The Periodic Table • Periodic Table: An arrangement of elements in order of increasing atomic number, showing periodic trends in properties. • Group: A vertical column in the periodic table, containing elements with the same number of valence electrons and similar chemical properties. • Period: A horizontal row in the periodic table, containing elements with the same number of electron shells. • Valence Electrons: Electrons in the outermost shell of an atom, involved in chemical bonding. • Alkali Metals (Group 1): Highly reactive metals, readily lose one electron to form $+1$ ions. React vigorously with water. • Alkaline Earth Metals (Group 2): Reactive metals, readily lose two electrons to form $+2$ ions. • Halogens (Group 17/7): Highly reactive non-metals, readily gain one electron to form $-1$ ions. Exist as diatomic molecules. • Noble Gases (Group 18/0): Unreactive elements with a full outer electron shell, existing as monatomic gases. • Transition Metals: Elements in the d-block of the periodic table, characterised by variable oxidation states, coloured compounds, and catalytic activity. • Metallic Character: Tendency of an element to lose electrons and form positive ions. Increases down a group, decreases across a period. • Non-metallic Character: Tendency of an element to gain electrons and form negative ions. Decreases down a group, increases across a period. • Ionisation Energy: The energy required to remove one electron from each atom in one mole of gaseous atoms to form one mole of gaseous $1+$ ions. • Electron Affinity: The energy change when one mole of electrons is added to one mole of gaseous atoms to form one mole of gaseous $1-$ ions. 9. Organic Chemistry • Organic Chemistry: The study of carbon compounds, excluding carbonates, carbides, and oxides of carbon. • Hydrocarbon: A compound containing only carbon and hydrogen atoms. • Saturated Hydrocarbon: A hydrocarbon containing only single carbon-carbon bonds (e.g., alkanes). • Unsaturated Hydrocarbon: A hydrocarbon containing one or more carbon-carbon double or triple bonds (e.g., alkenes, alkynes). • Homologous Series: A series of organic compounds with the same general formula, similar chemical properties, and showing a gradual change in physical properties. • Functional Group: A specific group of atoms within a molecule that is responsible for the characteristic chemical reactions of that molecule. • Alkane: Saturated hydrocarbons with the general formula $C_nH_{2n+2}$. Contain only single bonds. • Alkene: Unsaturated hydrocarbons with the general formula $C_nH_{2n}$. Contain at least one carbon-carbon double bond. • Alkyne: Unsaturated hydrocarbons with the general formula $C_nH_{2n-2}$. Contain at least one carbon-carbon triple bond. • Alcohol: Organic compounds containing the hydroxyl functional group ($-OH$). General formula $C_nH_{2n+1}OH$. • Carboxylic Acid: Organic compounds containing the carboxyl functional group ($-COOH$). • Ester: Organic compounds formed from the reaction of a carboxylic acid and an alcohol, containing the ester linkage ($-COO-$). • Isomers: Compounds with the same molecular formula but different structural formulae. • Structural Isomers: Isomers that differ in the arrangement of their atoms or bonds. • Addition Reaction: A reaction where an unsaturated molecule adds across a double or triple bond, forming a single product. • Substitution Reaction: A reaction where an atom or group of atoms in a molecule is replaced by another atom or group of atoms. • Polymerisation: The process of joining many small monomer molecules together to form a large polymer molecule. • Monomer: A small molecule that can be joined together to form a polymer. • Polymer: A large molecule (macromolecule) formed from many repeating monomer units. • Addition Polymerisation: Polymerisation where monomers add to one another in such a way that the polymer contains all the atoms of the monomer. Usually involves unsaturated monomers. • Condensation Polymerisation: Polymerisation where monomers join together with the elimination of a small molecule (e.g., water). • Cracking: The process of breaking down long-chain hydrocarbons into shorter, more useful hydrocarbons using heat and/or a catalyst. • Fermentation: The anaerobic respiration of yeast, converting glucose into ethanol and carbon dioxide. 10. Analytical Chemistry • Qualitative Analysis: The identification of the components of a sample. • Quantitative Analysis: The determination of the amount or concentration of a component in a sample. • Chromatography: A separation technique based on differential partitioning between a stationary phase and a mobile phase. • Retention Factor ($R_f$): In paper/thin-layer chromatography, the ratio of the distance travelled by the spot to the distance travelled by the solvent front. • Spectroscopy: The study of the interaction of electromagnetic radiation with matter. • Infrared (IR) Spectroscopy: Used to identify functional groups in organic molecules based on their absorption of IR radiation. • Mass Spectrometry: Used to determine the relative molecular mass of a compound and its fragmentation pattern to deduce structure. • Flame Test: A qualitative test for the presence of certain metal ions, which produce characteristic colours when heated in a flame.](https://i0.wp.com/cambridgeclassroom.com/wp-content/uploads/2024/03/White-And-Purple-Modern-Online-Graphic-Design-Courses-Instagram-Post-4.png?resize=150%2C150&ssl=1)
