It forced people to make the walls stronger and out of stone instead of wood like the motte and bailey castle. The trebuchet was very powerful so if you were making the walls stronger you would of had to really make it strong!
it forced people to redesign their castles because siege toweres helped them get across as they were tall so building higher castles mean that people wont be able to get past
hope it helped
i need the answer
you should make the walls higher and have deference one top
it meant that the corners of the castle collapsed so people reconsidered whether having corners was a good idea and decided to try circular towers which ended up help the win battles
load force divided by effort force
a trebuchet is a type of catapult. it used a counter weight
In some ways, yes. A trebuchet can hurl objects farther and higher than a catapult, but a catapult can throw with more force.
I'm unsure as to what exactly a distance magnifier is so hopefully someone with expertise in trebuchets can add to this. However I am confident that a trebuchet works on the principle of a lever. A lever is a force magnifier. Yet a trebuchet also uses a sling to launch the projectile in a parabolic arc which has the effect of increasing the distance, so perhaps it qualifies as both? A lever is most often used as a force multiplier, where the load moves through a smaller distance than the applied force, but in the case of a trebuchet the lever is used in the opposite sense. The load moves through a greater distance than the applied force and so the trebuchet is a distance multiplier.
The artist is galeao
Because it had more force and power over the people of England
to provide a counter weight that would help propel the projectile by using the force of gravity
Slingshot? Catapult? Trebuchet? Gun? Something that launches something else is usually good enough.
The Medieval Trebuchet consisted of a lever and a slingA very large force was applied to the shorter end of the arm, the load is on the other longer end of the arm with the fulcrum in the middleThe siege engine's arm could measure up to 60 feet in lengthHeavy lead weights or a pivoting ballast box (filled with earth, sand or stones) were fixed to the short end of the Medieval trebuchet armA heavy stone, or other missile, was placed in a leather pouch that was attached by two ropes to the other, long, endWhen the arm was released, the force created by the falling weight propelled the long end upward and caused the missile to be flung in the air towards the targetThe Trebuchet was capable of hurling stones weighing 200 pounds with a range of up to about 300 yardsAfter maximum range was achieved, the trebuchet was moved toward or away from the target
The first of Newton's Laws describes the inertia that allows the projectile to leave the trebuchet. The second law describes the acceleration that the trebuchet applies to the projectile before it releases. The third law describes the reaction that occurs when the trebuchet is released, as the weight's force pushing down creates the reaction of launch.