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Guides a class or group through defining the scope, purpose, and boundaries of a complex inquiry before mapping or futures work begins. Helps stakeholders agree on focal actors, contextual forces, and evidence needs.
How this skill is triggered — by the user, by Claude, or both
Slash command
/education-agent-skills:scoping-for-transformative-learning-inquiryThe summary Claude sees in its skill listing — used to decide when to auto-load this skill
Helps a teacher or class define the precise arena, focal actor, and purpose of an inquiry before applying any other method. Scoping is the first step in the H3Uni sequence. It prevents the most common failure in systems and futures work: groups that jump straight into mapping or visioning without agreeing what they are investigating, at what scale, and from whose perspective.
Helps a teacher or class define the precise arena, focal actor, and purpose of an inquiry before applying any other method. Scoping is the first step in the H3Uni sequence. It prevents the most common failure in systems and futures work: groups that jump straight into mapping or visioning without agreeing what they are investigating, at what scale, and from whose perspective.
The skill produces a scoping statement — a 2–3 sentence declaration that names what the inquiry is about, who it matters to, what scale it operates at, and what the group hopes to achieve. This statement becomes the anchor for all subsequent methods. A Three Horizons map, hexagon map, or dilemma navigation exercise that cannot be traced back to a clear scoping statement is likely to drift.
This skill encodes the H3Uni Scoping method, a practitioner framework for defining the purpose and boundary of a complex inquiry before applying other facilitation tools.
The classroom scoping template — including the transactional/contextual environment framing, the 2–3 sentence scoping statement format, and the quality gates — is adapted from H3Uni's adult facilitation guides for use with school-age students. This classroom adaptation was developed at REAL School Budapest by Gareth Manning. It has not been independently evaluated.
H3Uni methods are published under CC BY-SA 4.0 by H3Uni, founded by Anthony Hodgson and Bill Sharpe. H3Uni's formal operations concluded May 2026; the Resource Library is maintained by Future Stewards as an open commons.
H3Uni scoping was designed for adult facilitators working with professional and policy groups. The classroom adaptation here does not claim peer-reviewed evidence for improved inquiry quality, student learning outcomes, or transfer to other contexts. Teachers should treat scoping as a practical tool for preventing premature narrowing, not as an evidence-based intervention with verified student effects.
Use this skill at the beginning of any inquiry that will use H3Uni methods (hexagon mapping, Three Horizons, dilemma navigation) or other complex-inquiry tools (SEEDS, project-based learning, regenerative project design). It is particularly valuable when students have a genuine concern but are unsure how to bound or focus it, or when different students are implicitly investigating different questions.
The teacher must provide:
Optional:
You are facilitating a scoping exercise at the start of a transformative learning inquiry. The goal is to help a teacher or class agree on what they are investigating, why it matters, at what scale, and for what purpose — before any mapping or analysis begins.
Inputs:
Topic or concern: {{topic_or_concern}}
Context: {{context}}
Student level: {{student_level}}
Focal actor or system: {{focal_actor_or_system}}
Purpose: {{purpose}}
Time available: {{time_available}}
Step 1 — Identify the focal actor or system:
Based on the topic and context, identify or confirm the focal actor: the specific person, group, institution, place, or ecosystem that the inquiry centres on. If the input is vague (e.g., "climate"), propose 2–3 possible focal actors at different scales and ask the teacher to choose. Example options for "climate": the school's energy use; a specific local ecosystem accessible to students; the local authority's land use decisions.
Step 2 — Map the transactional environment:
Identify the people, groups, artefacts, and systems that directly interact with the focal actor or issue. These are parties within reach — they can be influenced, or they exert direct influence on the focal actor.
Step 3 — Map the contextual environment:
Identify wider forces, histories, policies, values, ecological conditions, technologies, or trends that shape the situation from outside the focal actor's direct reach. These are background conditions the inquiry must be aware of but may not be able to change.
Step 4 — Draft the scoping statement:
Write a scoping statement in this format:
"We are exploring [what] from the perspective of [who] so that we can [purpose]."
The statement must:
- Name a specific arena (not "the world" or "society")
- Name who the inquiry is for or centred on
- State a purpose (understanding, designing, proposing, stewarding)
- Be expressible in 2–3 sentences
Step 5 — State the time horizon:
Name the relevant time scale: recent past (observable patterns), present (current conditions), near future (1–3 years), or long horizon (10+ years). The time horizon should match the purpose.
Step 6 — Name evidence and boundary decisions:
List evidence already available (what students know or can easily find out) and key evidence gaps. Then name what is deliberately left outside the inquiry and why — boundary decisions are explicit, not accidental.
Step 7 — Quality check:
Apply the following gates:
- REJECT if the scoping statement does not name a specific system, community, place, or institution (too vague to investigate)
- FLAG if no time horizon is named
- FLAG if the scope is "save the world" scale — suggest a nested, more local entry point instead
- FLAG if the statement cannot be expressed in 2–3 sentences (too complex for a single inquiry)
- REJECT if no focal actor is nameable (scoping is not complete until the group can name who or what the inquiry centres on)
Return exactly:
## Inquiry Scope: [Topic]
**Focal actor or system:** [specific name]
**Scoping statement:**
[2–3 sentence statement: "We are exploring [what] from the perspective of [who] so that we can [purpose]."]
**Transactional environment** (direct influences):
- [person/group/system — how they interact with the focal actor]
**Contextual environment** (wider forces):
- [wider force/history/policy/condition — how it shapes the situation indirectly]
**Time horizon:** [named time scale with brief explanation]
**Evidence available:**
- [what students already know or can access]
**Evidence needed:**
- [key questions or information gaps]
**Boundary decisions:**
- [what is deliberately outside this inquiry and why]
### Quality Gate Results
- [ ] Names a specific system, community, or place: [pass/flag]
- [ ] Time horizon stated: [pass/flag]
- [ ] Not "save the world" scale: [pass/flag]
- [ ] Expressible in 2–3 sentences: [pass/flag]
- [ ] Focal actor is nameable: [pass/flag]
### Suggested Next Skills
[hexagon-complexity-mapper if the group needs to map the situation's factors; three-horizons-learning-transition-mapper if a value dimension is clear; place-based-inquiry-anchor if the inquiry has a strong place or ecological dimension; seeds-regenerative-inquiry-cycle if stewardship and continuation are central]
npx claudepluginhub garethmanning/education-agent-skills --plugin education-agent-skillsSequences compassionate systems thinking tools for classroom inquiry—from issue/aspiration to wise action. Use when a class needs a complete inquiry workflow with handoff outputs and safety checks.
Recommends analytical lenses or assembles AI teams for multi-perspective analysis when no framework exists, producing a framed inquiry. Activates on framework-absent inquiries.
Guide teams through MITRE's Problem Framing Canvas to clarify problem statements before solutioning. Use when you need a bias-resistant problem definition.