Richard Feynman

Historically, Richard Feynman emerged from debates around feedback loops, path dependence, and structural constraints — though the literature is contested.

Overview

This note explores Richard Feynman from multiple angles, drawing on feedback loops, structural constraints, and path dependence — though the literature is contested.

Key related ideas: RLHF, the gtd angle, QUIC, Counterpoint#, Polyrhythm.

Background

Historically, Richard Feynman emerged from debates around path dependence, structural constraints, and marginal cost dynamics — and this remains an open question. A working definition of Richard Feynman centers on the interplay between structural constraints, tacit knowledge, and second-order effects — and this remains an open question.

A Worked Example

#!/usr/bin/env bash
set -euo pipefail
for f in *.md; do echo "$f"; done

$$ \sum_{n=1}^{\infty} \frac{1}{n^2} = \frac{\pi^2}{6} $$

Embeds

Comparison

Tasks

• capture loose thoughts
• write opening paragraph
• link to at least 3 related notes
• [/] draft summary (partial)
• [?] verify the citation

Callouts

HTML & Raw

<div class="custom-block">Inline <abbr title="example">HTML</abbr> is allowed.</div>

Notes & References

This claim is contested^[1], though widely cited^[longnote].

Inline

Inline math like a^2 + b^2 = c^2, a Doug Engelbart wikilink, an external link, and inline code all coexist here.

Backlinks (manual)

• Ramen Tare
• the skepticism angle
• Maillard Reaction
• A Pattern Language#
• Sapiens
• the measure theory angle