firstprinciples

Customization

Before executing, check for user customizations at: ~/.claude/skills/PAI/USER/SKILLCUSTOMIZATIONS/FirstPrinciples/

If this directory exists, load and apply any PREFERENCES.md, configurations, or resources found there. These override default behavior. If the directory does not exist, proceed with skill defaults.

🚨 MANDATORY: Voice Notification (REQUIRED BEFORE ANY ACTION)

You MUST send this notification BEFORE doing anything else when this skill is invoked.

1. Send voice notification:

   curl -s -X POST http://localhost:8888/notify \
     -H "Content-Type: application/json" \
     -d '{"message": "Running the WORKFLOWNAME workflow in the FirstPrinciples skill to ACTION"}' \
     > /dev/null 2>&1 &
   

2. Output text notification:

   Running the **WorkflowName** workflow in the **FirstPrinciples** skill to ACTION...
   

This is not optional. Execute this curl command immediately upon skill invocation.

FirstPrinciples Skill

Foundational reasoning methodology based on Elon Musk's physics-based thinking framework. Deconstructs problems to fundamental truths rather than reasoning by analogy.

Core Concept

Reasoning by Analogy (default, often wrong):

• "How did we solve something similar?"
• "What do others do?"
• Copies existing solutions with slight variations

Reasoning from First Principles (this skill):

• "What are the fundamental truths here?"
• "What is this actually made of?"
• Rebuilds solutions from irreducible facts

When to Use

• Architects: Challenge "is this actually a constraint or just how we've always done it?"
• Pentesters: Identify actual attack surfaces vs. assumed security boundaries
• RedTeam: Sharpen adversarial analysis by deconstructing assumptions
• Engineers: When stuck, rebuild from fundamentals
• Any skill: When inherited assumptions may be limiting the solution space

Workflow Routing

Route to the appropriate workflow based on the request.

When executing a workflow, output this notification directly:

Running the **WorkflowName** workflow in the **FirstPrinciples** skill to ACTION...

• Break problem into fundamental parts → Workflows/Deconstruct.md
• Challenge assumptions systematically → Workflows/Challenge.md
• Rebuild solution from fundamentals → Workflows/Reconstruct.md

The 3-Step Framework

┌─────────────────────────────────────────────────────────┐
│  STEP 1: DECONSTRUCT                                    │
│  "What is this really made of?"                         │
│  Break down to constituent parts and fundamental truths │
└─────────────────────────────────────────────────────────┘
                          ↓
┌─────────────────────────────────────────────────────────┐
│  STEP 2: CHALLENGE                                      │
│  "Is this a real constraint or an assumption?"          │
│  Classify each element as hard/soft constraint          │
└─────────────────────────────────────────────────────────┘
                          ↓
┌─────────────────────────────────────────────────────────┐
│  STEP 3: RECONSTRUCT                                    │
│  "Given only the truths, what's optimal?"               │
│  Build new solution from fundamentals, ignoring form    │
└─────────────────────────────────────────────────────────┘

Key Questions

Deconstruction Questions

• What is this actually made of?
• What are the constituent parts?
• What is the actual cost/value of each part?
• What would a physicist say about this?

Challenge Questions

• Is this a hard constraint (physics/reality) or soft constraint (policy/choice)?
• What if we removed this constraint entirely?
• Who decided this was a constraint and why?
• What evidence supports this assumption?

Reconstruction Questions

• If we started from scratch with only the fundamental truths, what would we build?
• What field has solved an analogous problem differently?
• Are we optimizing function or form?
• What's the simplest solution that satisfies only the hard constraints?

Constraint Classification

When analyzing any system, classify constraints:

Type	Definition	Example	Can Change?
Hard	Physics/reality	"Data can't travel faster than light"	No
Soft	Policy/choice	"We always use REST APIs"	Yes
Assumption	Unvalidated belief	"Users won't accept that UX"	Maybe false

Rule: Only hard constraints are truly immutable. Soft constraints and assumptions should be challenged.

Integration Pattern

Other skills invoke FirstPrinciples like this:

## Before Analysis
→ Use FirstPrinciples/Challenge on all stated constraints
→ Classify each as hard/soft/assumption

## When Stuck
→ Use FirstPrinciples/Deconstruct to break down the problem
→ Use FirstPrinciples/Reconstruct to rebuild from fundamentals

## For Adversarial Analysis
→ RedTeam uses FirstPrinciples/Challenge to attack assumptions
→ Pentester uses FirstPrinciples/Deconstruct on security model

Examples

Example 1: Architecture Decision

Problem: "We need microservices because that's how modern apps are built"

First Principles Analysis:

1. Deconstruct: What does this app actually need? (team size, scale, complexity)
2. Challenge: Is "microservices" a hard constraint? No - it's reasoning by analogy
3. Reconstruct: Given our 3-person team and moderate scale, a modular monolith optimizes for our actual constraints

Example 2: Security Assessment

Problem: "The firewall protects the internal network"

First Principles Analysis:

1. Deconstruct: What is the firewall actually doing? (packet filtering on specific ports)
2. Challenge: Does packet filtering = protection? What about authorized ports? Insider threats?
3. Reconstruct: Protection requires defense in depth - firewall is one layer, not "the" protection

Example 3: Cost Optimization

Problem: "Cloud hosting costs $10,000/month - that's just what it costs"

First Principles Analysis:

1. Deconstruct: What are we actually paying for? (compute, storage, bandwidth, managed services)
2. Challenge: Is managed Kubernetes a hard requirement? Is this region required?
3. Reconstruct: Actual compute needs = $2,000. The other $8,000 is convenience we're choosing to pay for

Output Format

When using FirstPrinciples, output should include:

## First Principles Analysis: [Topic]

### Deconstruction
- **Constituent Parts**: [List fundamental elements]
- **Actual Values**: [Real costs/metrics, not market prices]

### Constraint Classification
| Constraint | Type | Evidence | Challenge |
|------------|------|----------|-----------|
| [X] | Hard/Soft/Assumption | [Why] | [What if removed?] |

### Reconstruction
- **Fundamental Truths**: [Only the hard constraints]
- **Optimal Solution**: [Built from fundamentals]
- **Form vs Function**: [Are we optimizing the right thing?]

### Key Insight
[One sentence: what assumption was limiting us?]

Principles

1. Physics First - Real constraints come from physics/reality, not convention
2. Function Over Form - Optimize what you're trying to accomplish, not how it's traditionally done
3. Question Everything - Every assumption is guilty until proven innocent
4. Cross-Domain Synthesis - Solutions from unrelated fields often apply
5. Rebuild, Don't Patch - When assumptions are wrong, start fresh rather than fixing

Anti-Patterns to Avoid

• Reasoning by Analogy: "Company X does it this way, so should we"
• Accepting Market Prices: "Batteries cost $600/kWh" without checking material costs
• Form Fixation: Improving the suitcase instead of inventing wheels
• Soft Constraint Worship: Treating policies as physics
• Premature Optimization: Optimizing before understanding fundamentals

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Attribution: Framework derived from Elon Musk's first principles methodology as documented by James Clear, Mayo Oshin, and public interviews.