physics-content-validator - SKILL.md Agent Skill

name: physics-content-validator description: Validate scientific accuracy of physics content including equations, units, constants, and common misconceptions. Use when writing or reviewing physics content, blog posts, or educational material. allowed-tools: Read

Physics Content Validator

Validate the scientific accuracy of physics content for the FísicaFans blog to ensure educational credibility and correctness.

Validation Areas

Equations: Correct formulas and proper notation
Units: SI units and dimensional analysis
Constants: Accurate physical constant values
Terminology: Proper physics terminology
Common Mistakes: Avoid typical physics misconceptions

Physical Constants Reference

Fundamental Constants

Constant	Symbol	Value	Units
Speed of light	c	299,792,458	m/s (exact)
Planck constant	h	6.62607015 × 10⁻³⁴	J·s (exact)
Reduced Planck	ℏ	1.054571817 × 10⁻³⁴	J·s
Gravitational constant	G	6.67430 × 10⁻¹¹	N·m²/kg²
Elementary charge	e	1.602176634 × 10⁻¹⁹	C (exact)
Boltzmann constant	k_B	1.380649 × 10⁻²³	J/K (exact)
Avogadro's number	N_A	6.02214076 × 10²³	mol⁻¹ (exact)
Gas constant	R	8.314462618	J/(mol·K)

Electromagnetic Constants

Constant	Symbol	Value	Units
Permittivity of free space	ε₀	8.854187817 × 10⁻¹²	F/m
Permeability of free space	μ₀	1.25663706212 × 10⁻⁶	H/m
Coulomb constant	k_e	8.9875517923 × 10⁹	N·m²/C²

Particle Masses

Particle	Symbol	Mass (kg)	Mass (MeV/c²)
Electron	m_e	9.1093837015 × 10⁻³¹	0.51099895
Proton	m_p	1.67262192369 × 10⁻²⁷	938.27208816
Neutron	m_n	1.67492749804 × 10⁻²⁷	939.56542052

SI Units Validation

Base SI Units

Quantity	Unit	Symbol
Length	meter	m
Mass	kilogram	kg
Time	second	s
Electric current	ampere	A
Temperature	kelvin	K
Amount of substance	mole	mol
Luminous intensity	candela	cd

Derived SI Units (Common in Physics)

Quantity	Unit	Symbol	In Base Units
Force	newton	N	kg·m/s²
Energy	joule	J	kg·m²/s²
Power	watt	W	kg·m²/s³
Pressure	pascal	Pa	kg/(m·s²)
Frequency	hertz	Hz	s⁻¹
Electric charge	coulomb	C	A·s
Voltage	volt	V	kg·m²/(A·s³)
Resistance	ohm	Ω	kg·m²/(A²·s³)
Magnetic field	tesla	T	kg/(A·s²)

Common Unit Errors to Avoid

❌ Wrong: "Energy is measured in watts" ✅ Correct: "Power is measured in watts; energy is measured in joules"

❌ Wrong: "Mass in grams" ✅ Correct: "Mass in kilograms (kg is the SI base unit)"

❌ Wrong: "Temperature in Celsius" ✅ Correct: "Temperature in kelvin (K is the SI base unit; °C is derived)"

❌ Wrong: "Force = ma newtons" ✅ Correct: "Force = ma, measured in newtons (N)"

Equation Validation Checklist

Classical Mechanics

✅ Correct Equations:

Newton's 2nd Law: F = ma
Kinetic Energy: E_k = ½mv²
Gravitational Force: F = Gm₁m₂/r²
Momentum: p = mv

❌ Common Mistakes:

F = ma² (wrong exponent)
E_k = mv² (missing ½ factor)
p = m/v (inverted formula)

Thermodynamics

✅ Correct Equations:

First Law: ΔU = Q - W (with sign convention)
Ideal Gas: PV = nRT
Entropy: ΔS = Q/T (for reversible processes)

❌ Common Mistakes:

ΔU = Q + W (wrong sign convention - depends on convention used, but be consistent!)
PV = RT (missing mole count n)

Electromagnetism

✅ Correct Equations:

Coulomb's Law: F = k_e q₁q₂/r²
Electric Field: E = F/q
Ohm's Law: V = IR
Lorentz Force: F = q(E + v × B)

❌ Common Mistakes:

F = k_e q₁q₂/r (missing square on r)
V = I/R (inverted formula)

Quantum Mechanics

✅ Correct Equations:

Photon Energy: E = hν = ℏω
de Broglie: λ = h/p
Uncertainty: Δx·Δp ≥ ℏ/2 (not just ℏ!)
Schrödinger: iℏ∂ψ/∂t = Ĥψ

❌ Common Mistakes:

E = ℏν (should be hν, or ℏω)
Δx·Δp ≥ ℏ (missing /2 factor)
Omitting the "i" in Schrödinger equation

Relativity

✅ Correct Equations:

Mass-Energy: E = mc²
Lorentz Factor: γ = 1/√(1 - v²/c²)
Energy-Momentum: E² = (pc)² + (m₀c²)²

❌ Common Mistakes:

E = mc (missing square)
γ = √(1 - v²/c²) (should be 1/√...)

Common Physics Misconceptions

1. Centrifugal Force

❌ Misconception: "Centrifugal force pulls objects outward in circular motion" ✅ Correct: "Centrifugal force is a fictitious force in rotating reference frames. The real force is centripetal (inward)."

2. Heat vs Temperature

❌ Misconception: "Heat and temperature are the same thing" ✅ Correct: "Heat is energy transfer (measured in joules), temperature is average kinetic energy (measured in kelvin)"

3. Gravity in Space

❌ Misconception: "There's no gravity in space" ✅ Correct: "Gravity exists everywhere; astronauts experience microgravity due to continuous freefall (orbit)"

4. Heisenberg Uncertainty

❌ Misconception: "We can't measure position and momentum because our instruments disturb the particle" ✅ Correct: "Uncertainty is fundamental to quantum mechanics, not a measurement limitation"

5. Speed of Light

❌ Misconception: "Nothing can go faster than light" ✅ Correct (more precise): "Nothing can travel faster than c through spacetime; information cannot travel faster than c"

6. E=mc²

❌ Misconception: "E=mc² only applies to nuclear reactions" ✅ Correct: "E=mc² is universal mass-energy equivalence; applies to all energy (including chemical bonds, heat, etc.)"

7. Conservation of Energy

❌ Misconception: "Energy is never lost" ✅ Correct: "Energy is conserved (not lost), but can be transformed into less useful forms (entropy increases)"

Terminology Validation

Correct vs Incorrect Terms

Correct	Incorrect	Notes
Speed of light (c)	Light speed	Use "speed of light"
Kinetic energy	Kinetic power	Energy, not power
Electric field	Electrical field	"Electric" is correct
Photon	Light particle	Photon is the technical term
Wavelength	Wave length	One word
Reference frame	Frame of reference	"Reference frame" is standard

Content Review Process

When reviewing physics content:

Read for comprehension: Does the explanation make sense?
Check equations: Are formulas correct and properly formatted?
Verify units: Are SI units used consistently?
Validate constants: Are physical constants accurate?
Confirm terminology: Is physics jargon used correctly?
Check for misconceptions: Does content reinforce or debunk common myths?
Verify sources: Are claims backed by reputable sources?

Example Validation

❌ Incorrect Content

"The energy of light is measured in watts and depends on its amplitude. The formula is E = hλ where h is Planck's constant and λ is wavelength. Temperature is measured in Celsius."

Problems:

Energy is measured in joules, not watts (power)
E = hλ is wrong; should be E = hν = hc/λ
Temperature SI unit is kelvin, not Celsius

✅ Corrected Content

"The energy of a photon is measured in joules and depends on its frequency. The formula is E = hν (or E = hc/λ), where h = 6.626×10⁻³⁴ J·s is Planck's constant, ν is frequency, and λ is wavelength. For thermodynamic temperature, the SI unit is kelvin (K)."

Red Flags (Immediate Review Needed)

🚩 Equations without units specified 🚩 Constants without values or incorrect values 🚩 "Heat energy" vs "thermal energy" (be precise) 🚩 Mixing different unit systems (SI + imperial) 🚩 Claiming something is "impossible" in physics (usually nuanced) 🚩 Missing significant figures in calculations 🚩 Confusing vectors and scalars (F vs |F|)

Validation Checklist

Before publishing physics content:

All equations use correct formulas
LaTeX notation is accurate
SI units used consistently
Physical constants have correct values
No common misconceptions reinforced
Terminology is technically correct
Claims are scientifically accurate
Sources cited where appropriate
Dimensional analysis checks out
Sign conventions explained (where relevant)

Resources for Verification

NIST Physical Constants: https://physics.nist.gov/cuu/Constants/
SI Units: https://www.bipm.org/en/measurement-units
Hyperphysics: http://hyperphysics.phy-astr.gsu.edu/
Physics Stack Exchange: https://physics.stackexchange.com/
ArXiv: https://arxiv.org/ (for recent research)

Reference

For complete constant values and common mistakes, see: