Live Quiz Arena
🎁 1 Free Round Daily
⚡ Enter ArenaQuestion
← HistoryWhich mechanical instability limited the maximum firing range of torsion-powered Roman siege weaponry?
A)Catapult arm fracture from fatigue
B)Rope fiber slippage reducing projectile energy✓
C)Base frame deformation misaligning trajectory
D)Counterweight imbalance causing premature release
💡 Explanation
When wound tightly, rope fiber slippage occurs because the torsion bundle's energy storage decreases due projectile motion affected dramatically. Therefore decreased firing range results, rather than frame deformation or imbalance counterweight which affect directional elements more directly.
🏆 Up to £1,000 monthly prize pool
Ready for the live challenge? Join the next global round now.
*Terms apply. Skill-based competition.
Related Questions
Browse History →- Which operational problem emerged in 18th-century warships when broadside cannons were fired simultaneously?
- Which navigational error increases most significantly when a chronometer gains seconds per day during transoceanic voyage?
- On ancient Roman roads, which risk increases as road base aggregate suffers compaction from ongoing heavy traffic?
- Which risk increases when early steam engine boilers, operating near material limits, experience scale buildup?
- During 18th-century shipbuilding, which mechanism limits ship size despite improved construction techniques?
- Which risk was historically most prominent when Roman legionaries undermined enemy fortifications during siege warfare?