We tested BLACK ARROWS and BALLISTA from The Hobbit!

Shadiversity2 minutes read

Historical war darts inspired by The Hobbit's Black Arrow are tested with regular bows proving challenging due to size and weight, necessitating a ballista-like setup for effective launching and showcasing power against armor with potential for further optimization.

Insights

  • Testing historical war darts inspired by The Hobbit's Black Arrow reveals challenges in replicating the movie scene due to the unrealistic portrayal of shooting a massive spear-like arrow with a broken bow.
  • The use of a ballista-like contraption, based on a historical replica bow, showcases the immense power required to effectively launch the Black Arrow, surpassing regular bow capabilities and emphasizing the importance of design and functionality optimization.

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Recent questions

  • What inspired the testing of historical war darts?

    The testing of historical war darts was inspired by a scene from The Hobbit movies involving the Black Arrow, a massive spear-like arrow depicted as heavier and larger than regular arrows.

  • How did the testers attempt to recreate the movie scene?

    The testers attempted to recreate the movie scene by using a makeshift setup with broken bow limbs jammed into wood, aiming to shoot the Black Arrow from regular bows.

  • What setup was used to enhance the testing of the Black Arrow?

    To enhance the testing, a ballista-like contraption based on a historical replica bow was used to showcase the immense power and accuracy needed to effectively shoot the Black Arrow.

  • What impact did the steel core in the projectile have?

    The steel core in the projectile was noted for its impact and effectiveness, with the power of the projectile being strong enough to potentially lift the entire structure, requiring secure anchoring.

  • How did the armor fare against the projectile testing?

    The armor used in the testing was able to deflect and absorb the impact effectively, showcasing its protective capabilities and resilience against the projectile's damage.

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Summary

00:00

Testing Historical War Darts: Black Arrow Accuracy

  • The arrows being tested are historical war darts, particularly inspired by a scene from The Hobbit movies involving the Black Arrow.
  • The Black Arrow in the film is depicted as a massive spear-like arrow, heavier and larger than regular arrows.
  • The character in the movie uses a broken bow to shoot the Black Arrow, a method deemed unrealistic by the testers.
  • The testing involves shooting the Black Arrow from regular bows, including a 70-80 lb longbow and a 100 lb longbow.
  • Shooting the Black Arrow from a regular bow proves challenging due to its size and weight.
  • The testers attempt to recreate the movie scene by using a makeshift setup with broken bow limbs jammed into wood.
  • The makeshift setup fails to accurately replicate the movie scene, highlighting the unrealistic nature of the depicted shot.
  • To enhance the testing, a ballista-like contraption is used to shoot the Black Arrow, showcasing its power and accuracy.
  • The ballista-like setup, based on a historical replica bow, demonstrates the immense power needed to shoot the Black Arrow effectively.
  • The ballista-like setup successfully launches the Black Arrow with significant power and accuracy, surpassing the capabilities of regular bows.

14:34

Projectile power and armor testing analysis.

  • The process of stabilizing and releasing a projectile is detailed, emphasizing the power and accuracy achieved.
  • The use of a steel core in the projectile is highlighted for its impact and effectiveness.
  • The power of the projectile is noted to be strong enough to potentially lift the entire structure, necessitating anchoring it securely.
  • The testing of the projectile against a steel breastplate is described, showcasing the armor's ability to deflect and absorb impact effectively.
  • The armor's construction and authenticity are praised, with attention to its representation of standard-grade armor.
  • Details on the armor's material, thickness, and historical accuracy are provided, enhancing the understanding of its protective capabilities.
  • The testing of the projectile against the armor is conducted, with expectations of deflection due to the armor's quality.
  • The results of the projectile's impact on the armor are observed, with a focus on the damage inflicted and the armor's resilience.
  • The testing of the projectile's distance capabilities is explored, with different types of arrows used to assess range and accuracy.
  • The conclusion highlights the impressive performance of the projectile in terms of accuracy, power, and potential for further optimization in design and functionality.
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