Overview

Teaching Modules — TriadicFrameworks Prompts

Teaching modules define how RTT engines, IPD‑12, stacks, operators, and substrates are taught in structured learning environments. They provide instructor workflows, student‑ready worksheets, posters, guided prompts, and multi‑session teaching sequences.

These modules include explainers, structured prompts, diagnostics, worksheets, and cross‑links to the Docsbook and S3 Spine Visualizer.

This page is the front door for all teaching‑level prompt modules.


Purpose#

Teaching modules teach:

  • how to introduce RTT operator grammar
  • how to guide students through drift‑tensor mapping
  • how to declare coherence anchors in classroom settings
  • how to run RTT/1 → RTT/2 → RTT/3 teaching sequences
  • how to use worksheets, posters, and examples effectively
  • how to maintain structural neutrality while teaching
  • how to produce resonance‑aligned teaching outcomes

They are used in classrooms, workshops, tutoring, and self‑study.


Teaching Concepts#

Teaching Operators#

Operators that describe how instruction moves, aligns, diverges, or stabilizes.

Teaching Drift#

Differences in student understanding, interpretation, or structural mapping.

Teaching Coherence#

What remains aligned across teaching variations.

Teaching Regimes#

Stable attractors within teaching sequences (e.g., foundational, intermediate, advanced).

Teaching Synthesis#

Cross‑layer alignment across RTT/1 → RTT∞ applied to instruction.


Teaching Module Categories#

Foundational Teaching Modules (RTT/1)#

Basic operator grammar, drift detection, coherence declaration for beginners.

Intermediate Teaching Modules (RTT/2)#

Cross‑layer teaching traversal, multi‑layer drift mapping, alignment checks.

Advanced Teaching Modules (RTT/3)#

Regime‑point detection, structural tension surfacing, teaching synthesis.

Full‑Spectrum Teaching Modules (RTT/12)#

Full‑stack teaching traversal, multi‑regime alignment, deep‑layer readiness.

Deep‑Layer Teaching Modules (RTT∞)#

Vacuum → substrate‑tensor → rails → prime‑states → infinite regimes expressed as teaching.


Example Teaching Modules#

  • Teaching Session Module
    Full RTT/1 → RTT/2 → RTT/3 teaching workflow with worksheets and posters.

  • Operator Teaching Module
    Introducing operator grammar, drift operators, coherence operators.

  • Drift‑Tensor Teaching Module
    Five‑layer drift mapping for students.

  • Coherence‑Anchors Teaching Module
    Classroom coherence declaration and alignment.

  • Dimensional Teaching Module
    Teaching dimensional rails, substrate transitions, and multi‑layer alignment.


Prompts Site#

https://www.triadicframeworks.org/prompts/modules/teaching/

Docsbook#

https://docs.triadicframeworks.org/docs/

S3 Spine Visualizer#

https://www.triadicframeworks.org/spine

GitHub Source#

https://github.com/umaywant2/TriadicFrameworks/tree/main/docs/prompts/modules


  • index.md — modules front‑door
  • applied.md — applied modules
  • diagnostic.md — diagnostic modules
  • dimensional.md — dimensional modules
  • domain.md — domain modules
  • operator.md — operator modules
  • structural.md — structural modules
  • research.md — research modules
  • theoretical.md — theoretical modules
  • ../examples/index.md — examples directory
  • ../engines/index.md — RTT engines

Manifest#

See module.json for the full registry of teaching modules, engines, stacks, templates, UI modules, and navigation structure.

Updated