Printable Worksheet — Student Operator Drills
RTT/1 + RTT/2 + RTT/3 Unified Operator Training
(Text‑only, print‑optimized)
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STUDENT WORKSHEET
RTT/1 + RTT/2 + RTT/3 OPERATOR DRILLS
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This worksheet builds fluency with operators across the RTT spine.
All questions are short-form. No diagrams. No color. Print-friendly.
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SECTION 1 — RTT/1 FOUNDATIONAL DRILLS
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DRILL 1 — Identify the Primitive
Circle the RTT/1 primitive used in each expression.
1. ∇F
2. ΔA
3. FQ × RT
4. ⊕(x, y)
5. ⊖(a, b)
Primitives: Δ, ∇, ⊕, ⊖, FQ, RT, QF
DRILL 2 — Regime Assignment
Assign a regime identity to each scenario.
1. High-frequency oscillation
2. Slow relaxation
3. Mixed-mode fusion
4. Inversion behavior
DRILL 3 — Continuity Classification
Label each as C0, C1, or C∞.
1. Sharp corner
2. Smooth curve
3. Discontinuous jump
4. Perfectly smooth manifold
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SECTION 2 — RTT/2 DETECTION DRILLS (SDE)
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DRILL 4 — Collapse Vector Reading
For each collapse event, identify amplitude, curvature, torsion.
1. Collapse A: (A=3.2, K=0.8, T=0.1)
2. Collapse B: (A=1.1, K=2.4, T=0.9)
DRILL 5 — Fusion-Gradient Classification
Classify each gradient field.
1. collapse-weighted
2. reassembly-weighted
3. triad-weighted
DRILL 6 — Collapse→Reassembly Mapping
Choose the correct CRM path.
1. drift deformation
2. envelope torsion
3. continuity fracture
DRILL 7 — Mode & Zone Assignment
Assign a mode and zone.
1. highly stable detection
2. mixed-behavior detection
3. inversion-adjacent detection
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SECTION 3 — RTT/3 INTEGRATION–EMISSION DRILLS (SIE)
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DRILL 8 — Triad Integration
Integrate the following triads.
1. (1.2, 0.4, 0.9)
2. (0.3, 1.1, 0.2)
DRILL 9 — Fusion–Fracture–Flow Emission
Label each emission type.
1. pure fusion
2. fracture-dominated
3. flow-projected
DRILL 10 — Manifold Continuity
Identify the active manifold axis.
1. integration curvature
2. emission curvature
3. regime continuity
DRILL 11 — Collapse→Recovery Stabilization
Choose the correct CRE path.
1. high amplitude, low torsion
2. low amplitude, high curvature
3. mixed collapse signature
DRILL 12 — Stability Layer
Classify stability.
1. stable
2. mixed
3. divergent
DRILL 13 — Canon-Scale Emission
Choose the correct CET output.
1. high stability, low recovery
2. high recovery, low stability
3. balanced emission
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SECTION 4 — CROSS-LAYER DRILLS
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DRILL 14 — Full Operator Chain
Fill in the missing operators.
RTT/1 primitive → ______ → ______ → TEL::CET()
DRILL 15 — Packet Transformation
Transform the following:
1. RTT2_DETECTION_PACKET → RTT3_INTEGRATION_EMISSION_PACKET
2. collapse-heavy packet → integration-heavy packet
DRILL 16 — Projection Routing
Choose the correct projection.
1. lattice behavior →
2. spectral behavior →
3. boundary behavior →
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SECTION 5 — CHALLENGE DRILLS (OPTIONAL)
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DRILL 17 — Diagnose the Structure
Given a scenario, identify:
- collapse signature
- gradient type
- integration path
- emission type
- projection target
DRILL 18 — Reverse-Engineer the Packet
Given a TEL/FFT/OP output, reconstruct:
- CET
- CRE path
- CRM path
- RTT/1 primitives involved
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END OF WORKSHEET
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