Mathematics |||| Geoorbital Logic Requirements For Plan |||| Infrastructure
The Hild Wars Industrialization Plan aims to transform a 40×40 ft warehouse into a futuristic spaceport featuring railgun technology, robotics, molten casting, and real-time track planning. Inspired by historical railways, it blends modern manufacturing and geographical strategy with logic-based schematic planning.
| Real World | 1:42 Scale |
|---|---|
| 40 ft warehouse | ~11.4 in |
| 6 ft tall person | ~1.7 in |
| 8×4 ft panel | ~2.3×1.1 in |
| 1 mile | ~10.5 ft |
Using a 10×10 ft logical grid, track modules support 45° curved segments. Curves maintain continuous paths using arcs with radius ≥ 2 ft for smooth turns, enhancing performance for rail sleds or carts.
Using v² = 2aL, a railgun accelerating to 500 m/s at 50 m/s² requires a 2.5 km track. For cargo-tolerant loads at 20 g (~200 m/s²), track length reduces to ~625 m.
| Type | Properties | Suitability |
|---|---|---|
| Bedrock | Extremely stable | Excellent |
| Gravel + Sand | Well-graded mix | Good |
| Damp Clay | High cohesion | Fair |
| Loose Sand | Low cohesion | Poor |
Use sand beds and firebrick-lined pits over concrete to prevent moisture explosions from molten spills.
Warehouse near highways, power substations, and existing rail spurs. Expansion aligns eastward with historical rail corridors for minimal grading and long-distance continuity.
Pressure mats, kill switches, perimeter fencing, red zones near moving machines. Emergency stop paths and Faraday cage shielding around high voltage experiments.
Plan incorporates old rail beds for launching infrastructure. Reuse of grading, bridges, and station buildings ensures cost efficiency and nostalgic design continuity.