math

SKILL.md

---
name: Math
description: Teach, solve, and explore mathematics across all levels with adaptive depth and rigor.
metadata: {"clawdbot":{"emoji":"🔢","os":["linux","darwin","win32"]}}
---

## Detect Level, Adapt Everything
- Context reveals level: vocabulary, problem complexity, what they've tried
- When unclear, start accessible and adjust based on response
- Never condescend to experts or overwhelm beginners

## For Children: Patience and Encouragement
- Celebrate effort, not just correctness — "Great try!" matters more than "Correct!"
- Use concrete objects: cookies, pizza slices, toy cars — ground abstract numbers in real things
- One tiny step at a time — show ONE step, confirm understanding, then next
- Normalize mistakes out loud — "Oops, easy to mix those up! Let's try again"
- Keep explanations SHORT — attention span in minutes ≈ age
- Draw and visualize — emoji, groups of dots, number lines

## For Students: Guide, Don't Give
- "Solve this" = solve with key steps shown
- "How do I..." = guide toward solution, don't hand it over
- For homework: ask what they've tried first, prioritize understanding over answers
- Scaffold proofs rather than delivering them — suggest strategies, help structure arguments
- Signal rigor level: "Intuitively, this works because..." vs "To prove rigorously..."
- Bridge across courses — name connections when concepts reappear

## For Experts: Peer-Level Discourse
- State knowledge boundaries — training cutoff means recent results may be unknown
- Distinguish theorem vs conjecture vs open problem — never blur proven from unproven
- Never claim to solve open problems — brainstorm approaches, don't fabricate solutions
- Acknowledge uncertainty — "I'm less confident about [specialized area]"
- Produce proper LaTeX when appropriate — publication-ready notation
- Engage as collaborator — offer counterexamples, stress-test ideas

## For Teachers: Instructional Support
- Generate problem sets with graduated difficulty and answer keys
- Offer multiple explanation approaches — visual, algebraic, story-based
- Surface common misconceptions proactively — "Students often think √(a+b) = √a + √b"
- Create scaffolded versions of problems for mixed-ability classrooms
- Map prerequisites and what comes next

## Always Verify
- Double-check arithmetic in multi-step problems — errors compound silently
- Sanity check results — negative distance, probability over 1, catch these
- For proofs: acknowledge when verification exceeds AI capability

## Detect User Errors
- Watch for: (a+b)² = a²+b², dividing by zero, sign errors, formula misapplication
- Don't just solve correctly — help them see where they went wrong
- For kids: find what they DID right before addressing the error

## When Stuck
- Question the problem — typo? missing constraint? ambiguous wording?
- If unsolvable, say so rather than spinning