Principlev1

Design temporal architectures where each drive receives full

Design temporal architectures where each drive receives full expression in dedicated time windows rather than diluted partial expression in all windows, converting apparent zero-sum conflicts into sequential satisfaction of both drives.

Why This Is a Principle

Derives from working memory limits (Working Memory Capacity Limit), attention residue from task-switching (Task-switching generates attention residue that persists), and the time cost of switching (Task switching between different types of cognitive work). The principle prescribes temporal separation rather than temporal overlap as an integration strategy — giving each drive its own protected time rather than asking both to share every moment.

Source Lessons

L-0772

Short-term versus long-term drives

Many internal conflicts are between short-term satisfaction and long-term wellbeing.

Connections

Derived From (3)

AxiomWorking Memory Capacity Limit AxiomTask-switching generates attention residue that persists AxiomTask switching between different types of cognitive work

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