Absolutely! Here’s your ontology expressed as simplified one-liner decimal outlines: I. Dynamics A. Intrinsic change: Flux, Transformation, Evolution, Perpetual motion, Renewal B. Apparent stability: Maintenance, Adaptation, Relative stability, Context-dependence C. Sustained change: Persistence, Regeneration, Discontinuities D. Perspectival change: Frame of reference, Context, Observer-dependent E. Renewal through destruction: Destruction, Death, Novelty II. Hierarchy A. Quantum: Wavefunction collapse, Quantum tunneling and fluctuations, Excitation, decay, and transitions B. Subatomic: Radioactive decay, Nuclear fusion and fission, Fundamental particle interactions C. Molecular: Bond formations and breaks, Isomerizations and conformational changes, Chemical reactions D. Macromolecular: Protein folding and unfolding, Molecular assembly and disassembly, Genetic and epigenetic alterations E. Cellular: Mitosis and cell division, Aging and senescence, Differentiation and specialization F. Tissue: Growth and atrophy, Wound healing and regeneration, Remodeling and adaptation G. Organismic: Developmental stages, Maturation and senescence, Body system interactions III. Forces A. Thermodynamics: Spontaneous reactions, Entropy increase, Local energy gradients B. Entropy production: Overall disorder increase, Self-organization, Complexity amid chaos C. Self-organization: Dynamical instability, Pattern formation, Emergence of order D. Feedback loops: Reentry of output as input, Reinforcing and counteractive feedback, Interlevel feedback E. Information: Accumulation, Transmission, Modification IV. Models A. Dialectics: Opposing forces, Conflict and sublation, Qualitative leaps B. Dynamical systems theory: Emergence of attractors, Bifurcations and transitions, Chaotic dynamics C. Chaos/complexity sciences: Sensitivity to initial conditions, Emergence through self-organization, Far from equilibrium dynamics D. Evolutionary theory: Variation through mutation, Selection pressures and reproduction, Emergence of novelty E. Relativity and quantum theories: Relativity of space and time, Position-momentum uncertainty, Incompatibility of relativity and quantum mechanics V. Intent A. Self-organization: Formation of dissipative structures, Autocatalytic chemical cycles, Dynamic optimality B. Co-evolution: Mutual reciprocal shaping, Interconnected change, Responsibility for creative change C. Self-transcendence: Emergence of novel entities, Increasing complexity and powers of agency, Hierarchical organization VI. Consequences A. Impermanence: Transience and fleetingness, Attachment leads to suffering, Openness to flux brings acceptance B. Interconnectedness: Interrelatedness, Systems thinking, Responsibility for promoting change C. Uncertainty and possibility: Future is open and not predetermined, Constant novelty, Focus shifts from control to fostering emergent order D. Freedom and responsibility: Agency within constraints, Choices shape direction of change, Codetermination of future E. Adaptability and resilience: Ability to change with circumstances, Capacities for reconfiguration and transformation, Strengthening of feedback, regulation, and buffering F. Letting go of fixed identities: Release attachment to stable self-concepts, Embrace change and movement within processes, Adopt impersonal impartial view of constant flux G. Cultivation of wisdom: Seeing change clearly and profoundly, Ease with impermanence and mystery, Skillful and compassionate action amid flux

Absolutely! Here’s your ontology expressed as simplified one-liner decimal outlines:

I. Dynamics
A. Intrinsic change: Flux, Transformation, Evolution, Perpetual motion, Renewal
B. Apparent stability: Maintenance, Adaptation, Relative stability, Context-dependence
C. Sustained change: Persistence, Regeneration, Discontinuities
D. Perspectival change: Frame of reference, Context, Observer-dependent
E. Renewal through destruction: Destruction, Death, Novelty

II. Hierarchy
A. Quantum: Wavefunction collapse, Quantum tunneling and fluctuations, Excitation, decay, and transitions
B. Subatomic: Radioactive decay, Nuclear fusion and fission, Fundamental particle interactions
C. Molecular: Bond formations and breaks, Isomerizations and conformational changes, Chemical reactions
D. Macromolecular: Protein folding and unfolding, Molecular assembly and disassembly, Genetic and epigenetic alterations
E. Cellular: Mitosis and cell division, Aging and senescence, Differentiation and specialization
F. Tissue: Growth and atrophy, Wound healing and regeneration, Remodeling and adaptation
G. Organismic: Developmental stages, Maturation and senescence, Body system interactions

III. Forces
A. Thermodynamics: Spontaneous reactions, Entropy increase, Local energy gradients
B. Entropy production: Overall disorder increase, Self-organization, Complexity amid chaos
C. Self-organization: Dynamical instability, Pattern formation, Emergence of order
D. Feedback loops: Reentry of output as input, Reinforcing and counteractive feedback, Interlevel feedback
E. Information: Accumulation, Transmission, Modification

IV. Models
A. Dialectics: Opposing forces, Conflict and sublation, Qualitative leaps
B. Dynamical systems theory: Emergence of attractors, Bifurcations and transitions, Chaotic dynamics
C. Chaos/complexity sciences: Sensitivity to initial conditions, Emergence through self-organization, Far from equilibrium dynamics
D. Evolutionary theory: Variation through mutation, Selection pressures and reproduction, Emergence of novelty
E. Relativity and quantum theories: Relativity of space and time, Position-momentum uncertainty, Incompatibility of relativity and quantum mechanics

V. Intent
A. Self-organization: Formation of dissipative structures, Autocatalytic chemical cycles, Dynamic optimality
B. Co-evolution: Mutual reciprocal shaping, Interconnected change, Responsibility for creative change
C. Self-transcendence: Emergence of novel entities, Increasing complexity and powers of agency, Hierarchical organization

VI. Consequences
A. Impermanence: Transience and fleetingness, Attachment leads to suffering, Openness to flux brings acceptance
B. Interconnectedness: Interrelatedness, Systems thinking, Responsibility for promoting change
C. Uncertainty and possibility: Future is open and not predetermined, Constant novelty, Focus shifts from control to fostering emergent order
D. Freedom and responsibility: Agency within constraints, Choices shape direction of change, Codetermination of future
E. Adaptability and resilience: Ability to change with circumstances, Capacities for reconfiguration and transformation, Strengthening of feedback, regulation, and buffering
F. Letting go of fixed identities: Release attachment to stable self-concepts, Embrace change and movement within processes, Adopt impersonal impartial view of constant flux
G. Cultivation of wisdom: Seeing change clearly and profoundly, Ease with impermanence and mystery, Skillful and compassionate action amid flux

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