Structural G-Load

G-LOAD ANALYZER

TOTAL THRUST (NEWTONS)

VEHICLE MASS (KG)

DRAG FORCE (N - OPTIONAL)

LOAD FACTOR

0.00

G-FORCE UNITS

STRUCTURAL SAFETY:

Waiting for ignition...

Vector G-Load

Apparent Weight. G-load is the Stress Factor. It measures the force exerted on the structure of a rocket—and the body of the pilot—during intense acceleration.

🏎️ Linear: Felt during rapid takeoff or braking.
🔄 Centripetal: Felt during sharp high-speed turns.
🥨 Structural: High Gs can snap wings or crush fuel tanks.

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⚠️ HIGH G-LOAD

BIOMETRIC SCAN

8.4 G

STATUS: 🚨 CRITICAL TOLERANCE

INERTIA-SYNC ACTIVE ✅

Radius R

The Geometry of Speed. Turn Radius is the Tension of the Arc. If you double your speed, you need four times the radius to keep the same G-load.

🏁 Small Radius: High G-load, sharp maneuver.
🌍 Large Radius: Smooth curve, lower stress.
🛰️ Orbit: A permanent turn around a planet.

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Vector Analysis

R: 450m

📐 STEADY STATE

RADIUS-SYNC ACTIVE ✅

Dry Mass Md

The Empty State. Dry Mass is the Structural Limit. It is the weight that doesn't disappear during flight, acting as the ultimate tax on your engine's efficiency.

🏗️ Structure: The airframe, tanks, and wiring.
⚙️ Hard-Weight: Engines and avionics systems.
⚖️ Ratio: High-performance rockets are 90% fuel, 10% Dry Mass.

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MASS COMPOSITION

DRY: 25,000

UNIT: ⚖️ kg

STRUCT-SYNC ACTIVE ✅

Vector Fc

The Pivot Force. Centripetal force acts perpendicular to the velocity, pulling toward the center. It is the tether that prevents chaos.

🧲 Direction: Always points exactly toward the center.
🏎️ Velocity²: Speed is the greatest multiplier of force.
💎 Structural: High Fc creates the "G-load" we discussed.

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TENSION ANALYSIS

Fc: 9,800

UNIT: 🔭 NEWTONS

FORCE-SYNC ACTIVE ✅