Search results
Results from the WOW.Com Content Network
Late medieval gothic plate armour with list of elements. The slot in the helmet is called an occularium. The slot in the helmet is called an occularium. This list identifies various pieces of body armour worn from the medieval to early modern period in the Western world , mostly plate but some mail armour , arranged by the part of body that is ...
Since the arbalest was much larger than earlier crossbows, and because of the greater tensile strength of steel, it had a greater force. The greater draw weight was offset by a shorter draw length, which limited the total potential energy that could be transferred into the crossbow bolt. A skilled arbalestier (arbalester) could loose two bolts ...
Thus, if other factors are equal, a standard Han dynasty crossbow with a ≈387-pound (176 kg) draw weight and a 20–21-inch (510–530 mm) powerstroke would have comparable levels of power to a medieval European crossbow with a 1,200-pound (540 kg) draw weight and a 6–7-inch (150–180 mm) powerstroke. [97] [98]
Medieval European crossbows had a much smaller draw length than bows, so that for the same energy to be imparted to the projectile the crossbow had to have a much higher draw weight. A direct comparison between a fast hand-drawn replica crossbow and a longbow shows a 6:10 rate of shooting [ 92 ] or a 4:9 rate within 30 seconds and comparable ...
This is a list of weapons that were used during the medieval period. Handheld weapons. Battle axe; Bec de corbin ... Crossbows. Arbalest; Crossbow; Repeating crossbow ...
The force required to hold the string stationary at full draw is often used to express the power of a bow, and is known as its draw weight, or weight. [35] [36] Other things being equal, a higher draw weight means a more powerful bow, which is able to project heavier arrows at the same velocity or the same arrow at a greater velocity.
[6] [7] In addition, Bane's testing demonstrated that a bodkin point arrow would also be able to penetrate plate armor of minimum thickness (1.2 mm), although likely not lethally. [6] However, the arrowheads used in the Bane test were made of steel, while research by the Royal Armouries and the Historical Metallurgy Society suggests that a ...
The draw force of a 10th-century bow may have reached some 90 pounds force (400 N) or more, resulting in an effective range of at least 200 metres (660 ft) depending on the weight of the arrow. [26] A yew bow found at Viking Hedeby, which probably was a full-fledged war bow, had a draw force of well over 100 pounds. Replica bows using the ...