Learn Center
Master the physics of anomaly detection and forensic analysis
Electron Dominance
Why electrons control particle behavior in ionized environments
The Neutrality Fallacy
The erroneous assumption that particles are electrically neutral
Coulomb's Law
The fundamental law governing electrostatic forces
Mass-Void Anomalies
Understanding division by zero protection in physics calculations
Active Charge Carriers
How particles transport charge in plasma environments
Ion Drag Force (Fi)
The force exerted by ion flow on charged particles
Plasma Environment Characteristics
Key properties of ionized gas environments
Debye Shielding
How plasma screens electric fields
Force Hierarchy Model
Understanding Fe > Fi > Fg relationships
Electrostatic Force (Fe)
The dominant force in charged particle dynamics
Gravitational Force (Fg)
The weakest but most familiar force
Force Ratio Analysis
Calculating and interpreting Fe/Fg and Fi/Fg ratios
Multi-Sensor Fusion
Combining data from multiple sensor types
Electromagnetic Signature Detection
Identifying anomalies via EM field measurements
Spectral Analysis
Analyzing light emissions for composition and energy
Vector Synchronization
Maintaining consistency between scalar and vector data
Adaptive Time-Step Integration
Hardware-independent simulation timing
Cross-Source Data Correlation
Validating events across multiple data sources
Non-Ballistic Trajectory Analysis
Identifying motion that defies gravity-only models
Velocity Vector Reconstruction
Deriving velocity from position data
Euler Integration Method
Simple numerical integration for motion simulation
Data Integrity Verification
Ensuring data hasn't been corrupted or modified
Confidence Score Calculation
Quantifying reliability of observations
Physics Compliance Check
Validating data against physical laws
31-Tier Taxonomic Scale
Standardized classification system for anomalies
Motion Classification Types
Categorizing observed motion patterns
Pattern Tag System
Labeling anomalies with characteristic patterns
Site Assessment Protocol
Initial evaluation procedures for field investigations
Witness Interview Techniques
Extracting reliable observational data from witnesses
Evidence Chain of Custody
Maintaining forensic integrity of collected data
Sensor Calibration Procedures
Ensuring accurate measurements from instruments
Measurement Uncertainty Quantification
Understanding and reporting measurement precision
Electromagnetic Interference Mitigation
Reducing noise from external EM sources
The Coulomb Unit
Understanding the SI unit of electric charge
Charge-to-Mass Ratio
Why electrons dominate particle motion
Newton's Laws for Charged Particles
Classical mechanics applied to charged particle motion
Plasma Frequency
Natural oscillation frequency of plasma electrons
Ionization Sources
What creates charge carriers in the environment
Plasma Sheath Dynamics
Boundary layer between plasma and surfaces
Force Ratio Calculations
Quantifying the dominance of Fe over Fg
When to Neglect Gravity
Conditions where gravitational force can be ignored
Spectroscopic Analysis
Identifying materials through light emission/absorption
Thermal Imaging Techniques
Detecting anomalies through infrared signatures
Magnetic Field Detection
Measuring magnetic anomalies and fluctuations
Fourier Analysis
Decomposing signals into frequency components
Noise Filtering Techniques
Separating genuine signals from random noise
Outlier Detection Methods
Identifying anomalous data points statistically
Position Interpolation Methods
Estimating positions between measurement points
Multi-Sensor Triangulation
Determining 3D position from multiple viewpoints
Data Provenance Tracking
Maintaining chain of custody for observations
Cross-Validation Techniques
Confirming findings through independent methods
Phenomenological Categories
Classifying anomalies by observable characteristics
Temporal Pattern Analysis
Classifying anomalies by timing characteristics
Spatial Distribution Analysis
Understanding geographic patterns of anomalies
Rapid Response Protocols
Quick deployment for time-sensitive observations
Environmental Documentation
Recording ambient conditions during observations
Field Safety Protocols
Ensuring researcher safety during investigations
Baseline Establishment
Recording normal readings before observations
Multi-Sensor Cross-Calibration
Ensuring consistency between different instruments
Calibration Drift Monitoring
Tracking sensor accuracy changes over time