Example input
[Examples: Mathematics, English, History, Biology, Computer Science, etc]: Mathematics, Physics
[Examples: Achieve grade A in Math, Complete a specific assignment, Prepare for a specific exam]: Achieve an A in Mathematics and prepare for the upcoming Physics exam.
[Examples: 1-2 hours per day, 10 hours per week, or 20 hours per week]: 15 hours per week, 2-3 hours per day.
[Examples: Visual learner, auditory learner, kinesthetic learner, mixed learner]: Kinesthetic learner โprefers hands-on practice"
[Examples: Difficulty concentrating after 1 hour of study, prefer morning or evening study, prefer hands-on practice, etc]: Difficulty concentrating after 1 hour of study, prefers studying in the evening.
Example output
Tailored Study Plan for Robier
1. Student Profile
Subjects: Mathematics, Physics
Goals: Achieve an A in Mathematics and prepare for the upcoming Physics exam.
Available Study Time: 15 hours per week, with 2-3 hours of study each day.
Learning Style: Kinesthetic learner (prefers hands-on practice).
Challenges: Difficulty concentrating after 1 hour of study, prefers studying in the evening.
2. Study Strategy and Methodology
Study Techniques
Mathematics: Focus on active problem-solving, practice sets, and using a whiteboard for visual problem-solving. Incorporate spaced repetition to retain formulas and concepts.
Physics: Apply hands-on activities such as lab experiments (if possible) and use practical problems to relate theoretical concepts. Implement active recall for key formulas and principles.
General Techniques:
Use mind mapping for complex topics (e.g., Physics concepts like energy and motion).
Summarisation for quick revision before exams.
Spaced repetition for both subjects.
Flashcards for quick formula recall in both Mathematics and Physics.
Subject Prioritization
Mathematics: As achieving an A in Mathematics is a primary goal, allocate more study time here in the first few weeks.
Physics: Focus on revision and practicing past papers to prepare for the exam, starting with core concepts and gradually moving to more complex problems.
Time Allocation
Mathematics: 8 hours/week (spread over 4 days).
Physics: 7 hours/week (spread over 3 days).
3. Daily/Weekly Schedule Creation
(This is a Table but looks messy because This "Text-box" does not support Rows/Columns Creation)
Weekly Overview
Day Subject Focus Study Techniques Additional Notes
Monday Mathematics Problem-solving, active recall 2 x 60-minute study sessions
Tuesday Physics Hands-on practice, problem-solving 2 x 60-minute study sessions
Wednesday Mathematics Problem sets, summarisation 1 x 90-minute study session
Thursday Physics Active recall, formula practice 1 x 90-minute study session
Friday Mathematics Practice problems, active recall 2 x 60-minute study sessions
Saturday Physics Revision, past papers 2 x 60-minute study sessions
Sunday Review & Rest Light revision, flashcards Focus on summarisation & review
Daily Plan
Monday (2 x 60-minute blocks)
Mathematics: Work through problem sets related to the current topic. Focus on one specific area (e.g., Algebra or Calculus) and practice problems to reinforce learning.
Physics: Engage in hands-on experiments or practical examples (if possible) to connect theory with real-life applications.
Tuesday (2 x 60-minute blocks)
Physics: Focus on key concepts for the upcoming exam. Solve related problems and reinforce key equations.
Mathematics: Practice specific problems to reinforce your understanding, especially where you feel weaker.
Wednesday (90-minute block)
Mathematics: Focus on complex problems or past exam questions. Use mind mapping for any difficult concepts.
Physics: Start preparing flashcards for quick formula review and key concepts.
Thursday (90-minute block)
Physics: Conduct a focused revision of topics that are most challenging. Use active recall and work through related problems.
Mathematics: Solve a set of complex problems that challenge your understanding. Focus on your weakest areas.
Friday (2 x 60-minute blocks)
Mathematics: Review and solve challenging problems. Make sure to revisit any missed concepts from earlier in the week.
Physics: Use flashcards to test your recall of formulas and concepts. Focus on the most critical areas for the exam.
Saturday (2 x 60-minute blocks)
Physics: Work through past exam papers to familiarize yourself with the exam format. Focus on time management.
Mathematics: Conduct a final revision session on the weekโs topics, focusing on problem-solving.
Sunday (Rest and Light Revision)
Review any weak areas using summarisation and flashcards. Take a mental break to avoid burnout.
4. Motivation and Focus
Staying Motivated
Mini Goals: Break larger goals into smaller, manageable tasks. For example, aim to complete a set of problems each day rather than thinking about the entire chapter.
Rewards: After completing each study block or achieving a mini goal (e.g., completing a problem set or solving a difficult Physics question), reward yourself with something enjoyable (e.g., a short break, a treat).
Focus Improvement Tips
Pomodoro Technique: Use 25-minute focused study blocks, followed by a 5-minute break. After completing four Pomodoros, take a longer break (15-30 minutes).
Dedicated Study Space: Ensure your study area is free from distractions (e.g., turn off phone notifications and keep only essential materials within reach).
Time of Day: Since you prefer studying in the evening, ensure the most challenging tasks (Mathematics problem-solving, in particular) are done during your peak focus hours.
5. Assessment and Adjustments
Weekly Review: At the end of each week, reflect on your progress. Did you manage to stick to the plan? Are there areas where you need to spend more time or adjust your approach?
Adjustments: If you fall behind or find some subjects more challenging, adjust the study time allocation. For example, if you struggle with a certain Physics concept, allocate extra time to it during the week.
6. Study Resources and Tools Recommendations
Mathematics:
Tools: Use digital tools like Khan Academy, Wolfram Alpha, and Photomath for problem-solving practice.
Textbooks: Refer to your course textbook for detailed explanations and example problems.
Flashcards: Use apps like Anki for spaced repetition of formulas.
Physics:
Tools: PhET Interactive Simulations offers great virtual labs to simulate experiments.
Textbooks: Focus on your Physics syllabus and use YouTube tutorials for practical explanations.
Past Papers: Practice past exam questions to familiarise yourself with the format and timing.
By following this dynamic, adaptive study plan, you can stay on track, meet your academic goals, and improve both your focus and retention. Be sure to check your progress weekly and adjust the plan as needed!