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SECTION 1 — WORKSHEETS (FULLY EXPANDED)
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1. STUDENT WORKSHEET#
(RTT/1 → RTT/3 Operator Ecology)
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STUDENT WORKSHEET — OPERATOR ECOLOGY
RTT/1 → RTT/2 → RTT/3
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This worksheet introduces the full operator chain:
RTT/1 primitives
RTT/2 detection (SDE)
RTT/3 integration–emission (SIE)
projection (TEL / FFT / OP)
All data is synthetic and safe.
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SECTION A — RTT/1 PRIMITIVES
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TASK A1 — Identify all RTT/1 primitives:
Δ, ∇, ⊕, ⊖, FQ, RT, QF
TASK A2 — Assign each primitive to its function:
Δ → ____________________________________________
∇ → ____________________________________________
⊕ → ____________________________________________
⊖ → ____________________________________________
FQ → ____________________________________________
RT → ____________________________________________
QF → ____________________________________________
TASK A3 — Classify the following as:
- deformation
- gradient
- collapse
- reassembly
1. drift deformation → _____________________________
2. envelope torsion → ______________________________
3. triad-weighted gradient → ________________________
4. continuity fracture → ____________________________
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SECTION B — RTT/2 DETECTION (SDE)
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Use the synthetic sample:
Sample X:
A=1.4, K=0.8, T=0.3
gradient: mixed
deformation: envelope torsion
regime: mixed
TASK B1 — Compute CPV(A,K,T):
CPV = ____________________________________________
TASK B2 — Classify FGT:
_________________________________________________
TASK B3 — Map CRM:
_________________________________________________
TASK B4 — Assign MODE:
_________________________________________________
TASK B5 — Assign ZONE:
_________________________________________________
TASK B6 — Build RTT2_DETECTION_PACKET:
collapse_propagation: ______________________________
fusion_gradient: ___________________________________
triad_deformation: _________________________________
regime: ____________________________________________
detection_mode: ____________________________________
detection_zone: ____________________________________
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SECTION C — RTT/3 INTEGRATION–EMISSION (SIE)
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Use the synthetic sample:
Sample Y:
drift=1.2, envelope=0.9, continuity=0.6
deformation: envelope torsion
collapse: medium amplitude, medium torsion
TASK C1 — Apply INT():
_________________________________________________
TASK C2 — Identify TIF dominant component:
_________________________________________________
TASK C3 — Identify MAN axes (FI / EM / R):
_________________________________________________
TASK C4 — Classify emission (FFF):
_________________________________________________
TASK C5 — Identify CRE dominance (CAV / CSV / mixed):
_________________________________________________
TASK C6 — Classify CSL stability:
_________________________________________________
TASK C7 — Build RTT3_INTEGRATION_EMISSION_PACKET:
integration: _______________________________________
emission: __________________________________________
continuity: ________________________________________
collapse_recovery: __________________________________
stability: __________________________________________
canon_scale_emission: _______________________________
mode: ______________________________________________
zone: ______________________________________________
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SECTION D — PROJECTION
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TASK D1 — Choose the correct projection for Sample Y:
TEL / FFT / OP → _________________________________
TASK D2 — Justify:
_________________________________________________
_________________________________________________
_________________________________________________
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SECTION E — FULL OPERATOR CHAIN
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TASK E1 — Write the full operator chain for Sample Y:
RTT/1 primitives
→ ________________________________________________
→ ________________________________________________
→ ________________________________________________
→ ________________________________________________
→ ________________________________________________
→ ________________________________________________
→ ________________________________________________
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END OF STUDENT WORKSHEET
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--- PAGE BREAK ---
2. STUDENT ANSWER SHEET#
(Blank fields only — for printing)
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STUDENT ANSWER SHEET — OPERATOR ECOLOGY
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SECTION A — RTT/1 PRIMITIVES
A1: ________________________________________________
A2:
Δ → ____________________________________________
∇ → ____________________________________________
⊕ → ____________________________________________
⊖ → ____________________________________________
FQ → ____________________________________________
RT → ____________________________________________
QF → ____________________________________________
A3:
1 → ________________________________________________
2 → ________________________________________________
3 → ________________________________________________
4 → ________________________________________________
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SECTION B — RTT/2 DETECTION (SDE)
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B1 — CPV: __________________________________________
B2 — FGT: __________________________________________
B3 — CRM: __________________________________________
B4 — MODE: _________________________________________
B5 — ZONE: _________________________________________
B6 — RTT2_DETECTION_PACKET:
collapse_propagation: ____________________________
fusion_gradient: __________________________________
triad_deformation: ________________________________
regime: ___________________________________________
detection_mode: ___________________________________
detection_zone: ___________________________________
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SECTION C — RTT/3 INTEGRATION–EMISSION (SIE)
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C1 — INT: __________________________________________
C2 — TIF: __________________________________________
C3 — MAN: __________________________________________
C4 — FFF: __________________________________________
C5 — CRE: __________________________________________
C6 — CSL: __________________________________________
C7 — RTT3_INTEGRATION_EMISSION_PACKET:
integration: _____________________________________
emission: ________________________________________
continuity: ______________________________________
collapse_recovery: ________________________________
stability: _______________________________________
canon_scale_emission: _____________________________
mode: ____________________________________________
zone: ____________________________________________
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SECTION D — PROJECTION
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D1 — Projection: ___________________________________
D2 — Justification:
_________________________________________________
_________________________________________________
_________________________________________________
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SECTION E — FULL OPERATOR CHAIN
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E1:
_________________________________________________
_________________________________________________
_________________________________________________
_________________________________________________
_________________________________________________
_________________________________________________
_________________________________________________
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END OF STUDENT ANSWER SHEET
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--- PAGE BREAK ---
3. INSTRUCTOR ANSWER KEY#
(Fully expanded)
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INSTRUCTOR ANSWER KEY — OPERATOR ECOLOGY WORKSHEET
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SECTION A — RTT/1 PRIMITIVES
A1 — Primitives:
Δ, ∇, ⊕, ⊖, FQ, RT, QF
A2 — Functions:
Δ → structural delta / local change
∇ → gradient / directional change
⊕ → constructive merge
⊖ → subtractive merge
FQ → frequency qualifier
RT → regime tag
QF → quality factor
A3 — Classification:
1. drift deformation → deformation
2. envelope torsion → deformation
3. triad-weighted gradient → gradient
4. continuity fracture → deformation (fracture subtype)
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SECTION B — RTT/2 DETECTION (SDE)
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Sample X:
A=1.4, K=0.8, T=0.3
B1 — CPV:
CPV(1.4, 0.8, 0.3)
B2 — FGT:
mixed
B3 — CRM:
envelope torsion path
B4 — MODE:
hybrid
B5 — ZONE:
M
B6 — RTT2_DETECTION_PACKET:
collapse_propagation: CPV(1.4, 0.8, 0.3)
fusion_gradient: mixed
triad_deformation: envelope torsion
regime: mixed
detection_mode: hybrid
detection_zone: M
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SECTION C — RTT/3 INTEGRATION–EMISSION (SIE)
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Sample Y:
drift=1.2, envelope=0.9, continuity=0.6
C1 — INT:
INT(1.2, 0.9, 0.6)
C2 — TIF:
drift-dominant
C3 — MAN:
FI + EM
C4 — FFF:
flow
C5 — CRE:
mixed
C6 — CSL:
mixed
C7 — RTT3_INTEGRATION_EMISSION_PACKET:
integration: INT(1.2, 0.9, 0.6)
emission: FFF(flow)
continuity: MAN(FI, EM)
collapse_recovery: CRE(mixed)
stability: CSL(mixed)
canon_scale_emission: CET(balanced)
mode: mixed
zone: M
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SECTION D — PROJECTION
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D1 — Projection:
TEL::CET()
D2 — Justification:
- flow emission
- mixed stability
- envelope torsion deformation
→ lattice projection is appropriate
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SECTION E — FULL OPERATOR CHAIN
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E1 — Full chain:
RTT/1 primitives
→ SDE::CPV(1.4, 0.8, 0.3)
→ SDE::FGT(mixed)
→ SDE::CRM(envelope torsion)
→ SDE::MODE(hybrid)
→ SIE::INT(1.2, 0.9, 0.6)
→ SIE::TIF(drift-dominant)
→ SIE::MAN(FI, EM)
→ SIE::FFF(flow)
→ SIE::CRE(mixed)
→ SIE::CSL(mixed)
→ SIE::CET(balanced)
→ TEL::CET()
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END OF INSTRUCTOR ANSWER KEY
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