💥 MHI Class 7: Terminal Hazard (Binary Crush Zone) OVERLAPPING CASCADE SUPERPOSITION. Complete structural annihilation from competing sinks.
🚨 MHI Class 6: Critical Hazard (Singularity Flow) ABSOLUTE NO-FLY ZONE. The electron flow is so violently fast here that standard propulsion will fail.
⚠️ MHI Class 5: Extreme Hazard (Degenerate Matter Flow) Extreme hull stress. Only approach with advanced deflection shielding.
🟠 MHI Class 4: High Hazard (Giant/Stellar Flow) Dangerous gravitational currents. Maintain wide orbital distance.
🟡 MHI Class 3: Moderate Hazard (Terrestrial Flow) Standard planetary flow. Safe for orbital insertion and surface landings.
🟢 MHI Class 2: Low Hazard (Lunar/Dwarf Flow) Minor navigational nudging. Standard thrusters can easily overcome the cascade.
🔵 MHI Class 1: Safe (Micro-Flow) Negligible vacuum flux. Completely safe for proximity operations and docking.
⚙️ How is this calculated?
The Mara Hazard Index (MHI) represents the Magnitude of Electron Flow. Because flow speeds vary drastically across the universe—from fractions of a millimeter per second (asteroids) to billions of meters per second (black holes)—we use a Base-10 magnitude scale.
Step 1: Average Flow Speed: We calculate the mean gravitational acceleration (m/s²) across all 10 EFM models (M1 through M10).
Step 2: Magnitude Conversion: The raw speed is mathematically converted into a magnitude index. An increase of +1 means the flow is 10 times faster!
Step 3: Hazard Assignment: The resulting magnitude dictates the MHI Class. A negative flow rate signifies extremely delicate micro-gravity, safely grouped into MHI Class 1.
💡 Real-World Connection: This is the exact same magnitude mathematics scientists use for the Richter scale (earthquakes), the Decibel scale (sound), and the pH scale (acidity)!
EFM Profiler v70 Help
Welcome to the world's first interactive fluid-dynamic gravity engine. While traditional astrophysics relies on static surface observations, this engine actively calculates the push-pull gravitational flux across 9 dynamic vector points—mapping the exact gravitational pressure from the negative core sink straight out to twice the celestial body's radius. We aren't just observing gravity; we are mapping its fluid circuit in real-time.
The Unified Master Equation
The Electron Flow Model utilizes one single, elegant equation for every body in the universe. This algorithm dynamically adapts to the specific geometric, thermodynamic, and environmental reality of the celestial body.
αG (Universal Flux Constant): The baseline geometric vacuum resistance.
ρeff (Effective Density): The physical density of the material, acting as the structural throttle.
R (Volumetric Radius): The distance from the core to the surface boundary.
τ(T) (Thermodynamic Impedance): The structural resistance based on internal material phase states.
vrot2 / R (Centrifugal Exhaust): The outward pressure offset caused by the physical rotation of the body pushing back against the inward vacuum flux.
Ωshield (Environmental Superposition Factor): The dynamic variable that dictates the boundary collision.
The Environmental Superposition Factor (Ωshield): For massive, self-shielded primary bodies (like Earth or Jupiter), this locks at 1.000. For unshielded small bodies and moons, it activates as (Dref)0.21, seamlessly scaling the engine output based on the ambient flux density of their orbital environment.
Matrix Header Key
D:Dref (AU) - The Ambient Flux Multiplier Reference Distance.
RX: Prime Vector Radius (Equatorial Length in km).
RY: Lateral Vector Radius (Equatorial Width in km).
RZ: Polar Vector Radius (Pole-to-Pole Height in km).
ρ:ρeff - The Effective Density (kg/m³).
τ:τ(T) - Thermodynamic and Structural Impedance.
vrot: Equatorial Rotational Velocity (m/s).
Dir: Rotation Direction (Pro = Prograde, Ret = Retrograde, Tum = Tumbling).
Hazard Class: The Mara Hazard Index (MHI) for proximity operations.
M10 - M6: Exterior Mara Vectors (Deep Space Boundary to Approach Acceleration).
M5: The Calculated EFM Surface Gravity (gEFM in m/s²).
Obs: NASA's Observed Surface Gravity (m/s²).
M4 - M1: Interior Mara Vectors (Sub-Surface to Near-Core Compression).
Navigation Controls
Rotate Camera: Click and hold the Left Mouse Button (or one finger on mobile), then drag to look around.
Zoom In/Out: Use your Mouse Scroll Wheel (or pinch with two fingers on mobile).
Pan Camera: Click and hold the Right Mouse Button (or two fingers on mobile), then drag to move the camera.
Interactive Tooltips: Hover over any 3D vector point to view its exact position and flux density. The data card will stay pinned until you move your mouse off the card.
Main Data Matrix: Click any row in the Data menu to instantly teleport to that celestial body. Press ESC to close. Use the + and - buttons to adjust the table view, and Export CSV to save the currently sorted data.
About the Authors
Christopher Berry Marabūt
Independent Researcher & Principal Architect
Christopher (alias "Sage" / "7Q") is a senior technology professional with approximately 30 years of experience in enterprise architecture and automation. He is the primary author of Marabūt's Theory of Gravity and the developer of the Electron Flow Model (EFM) and its accompanying fluid-dynamic simulations.
Independent Researcher & Co-Author
Angelina is an independent researcher, collaborative scientific partner, and Christopher's Twin Flame. She is a vital co-author of the EFM manuscript, contributing deeply to the theoretical refinement and musical projects associated with their joint works.