A living collection of activities grouped into four tracks. Filter by track, or jump directly to a specific activity using the anchors.
Activities focused on reading, understanding, and communicating mathematics with clarity.
The Student Bulletin is a home for expository notes, problem write-ups, short essays, and interviews β curated by the site\'s editorial team and typeset with LaTeX so that contributors can practise clear mathematical writing.
Activities focused on doing mathematics: solving problems, writing code, typesetting, and making art.
Use the online problem hub to explore carefully chosen problems and community submissions. Problems can be searched by title or keyword, filtered by topic (analysis, combinatorics, special functions, ODEβBee, and more), and sorted by recency or votes. Each problem has its own discussion page where people share full solutions, alternative approaches, and comments.
Learn tools such as Python, SageMath, Maple, Mathematica, and Manim together. Use the coding labs to support number theory, combinatorics, visualisation projects, and experiments for coursework and research.
LaTeX clinics and the LaTeX Lab help people write mathematics cleanly. Each participant completes a mini project such as a typed solution sheet or a short exposition linked to a course or a personal topic.
Explore the intersection of mathematics and creativity: geometric art, origami constructions, fractal images, algebra diagrams, and symmetry patterns collected in the Math-art gallery.
Support and participate in the ODEβIntegration Bee and related contests. Build tradition, teamwork, and problem-solving skill in a friendly competitive environment.
Activities that connect people across backgrounds: researchers, students, educators, and collaborators working with mathematics in different contexts.
Invite mathematicians and researchers (local and international) to give short talks and mini-lectures. Prepare questions and keep the discussion alive afterwards.
Watch mathematics-related films and documentaries together and discuss their themes: creativity, proof, collaboration, struggle, and the human side of mathematics.
Organise visits to local schools to give accessible math talks and small problem sessions. Build confidence and serve as role models for younger students.
Collaborate with people working in computer science, physics, statistics, engineering, economics, education, or industry. Host joint sessions that show how mathematical ideas move across fields β from theory to applications and back again.
Activities that help people see the many directions mathematics can take them β in research, industry, and beyond.
Invite researchers, alumni, and professionals to speak about paths in academia, industry, teaching, and applied work. Capture key ideas and resources so visitors can revisit advice later β including recommendations, reading lists, and practical next steps.
