a catapult with the same amount of force will throw the objects the same distance. the air resistance on the object is the only reason one flies farther. the heavier one doesn't go as far. Also if it is to heavy, it will just fall. it it doesn't weigh enough, it wont go anywhere. Also if it is hollow it wont go anywhere
Air resistance can affect the trajectory of a projectile launched by a catapult by slowing it down as it travels through the air. The greater the air resistance, the shorter the distance the object will travel. Designing a catapult with aerodynamic components can help minimize the impact of air resistance on the projectile's flight path.
Hello: * Yes, the angle of a catapult does affect the distance. And this applies to both changing the angle of the catapult and changing the angle of the terrain under the catapult. If you shoot the catapult at say 45 degrees, you have very good distance. If you shoot it at 30 degrees, while it may be further, it would be lower to the ground and perhaps not travel as far hitting trees and running into wind-shear. If you shoot at say 80 degrees, while the lob goes high up in the air, it won't travel very far. So your best bet, for maximum distance, is to take your catapult to the highest possible altitude, aim for 45 degrees, taking into account the wind direction and speed, and lob away. Don't hit anyone. :) Answer Actually, the maximum distance that can be achieved from a catapult is at an angle of 45 degrees. Every degree increase from 0 up to 45 approaches the maximum distance that something can be thrown. Every degree from 45 to 90 decreases the distance.
Height affects distance by influencing the trajectory and angle at which an object is launched or thrown. A higher launch angle can result in greater distance if the initial velocity is maintained. Additionally, taller individuals may have longer limbs, allowing them to cover more ground with each step when running or walking.
Newton's first law is when then load sits in the catapult until the catapult is launched and then it moves. The second law is when the catapult output is given in the amount of force depending on how far the bucket is pulled back. The third law is the catapult will experience exactly the same force as the thrown object but in the opposite direction.
A projectile.
thrid to first
Air resistance can affect the trajectory of a projectile launched by a catapult by slowing it down as it travels through the air. The greater the air resistance, the shorter the distance the object will travel. Designing a catapult with aerodynamic components can help minimize the impact of air resistance on the projectile's flight path.
yes it does the optimal ang
Hello: * Yes, the angle of a catapult does affect the distance. And this applies to both changing the angle of the catapult and changing the angle of the terrain under the catapult. If you shoot the catapult at say 45 degrees, you have very good distance. If you shoot it at 30 degrees, while it may be further, it would be lower to the ground and perhaps not travel as far hitting trees and running into wind-shear. If you shoot at say 80 degrees, while the lob goes high up in the air, it won't travel very far. So your best bet, for maximum distance, is to take your catapult to the highest possible altitude, aim for 45 degrees, taking into account the wind direction and speed, and lob away. Don't hit anyone. :) Answer Actually, the maximum distance that can be achieved from a catapult is at an angle of 45 degrees. Every degree increase from 0 up to 45 approaches the maximum distance that something can be thrown. Every degree from 45 to 90 decreases the distance.
Trebuchets aren't thrown. It is a catapult. It launches things. Many different things.
Horizontally
Height affects distance by influencing the trajectory and angle at which an object is launched or thrown. A higher launch angle can result in greater distance if the initial velocity is maintained. Additionally, taller individuals may have longer limbs, allowing them to cover more ground with each step when running or walking.
Newton's first law is when then load sits in the catapult until the catapult is launched and then it moves. The second law is when the catapult output is given in the amount of force depending on how far the bucket is pulled back. The third law is the catapult will experience exactly the same force as the thrown object but in the opposite direction.
A projectile.
Pitch, or the angle at which an object is thrown, can affect the speed of the object by changing the trajectory and force applied to it. A higher pitch can result in a faster speed due to the increased force and angle of projection.
When an object is thrown upward, work is done against gravity as the object moves upward. The amount of work done is equal to the force applied to lift the object multiplied by the distance it moves vertically.
it will cut through the air more quickly and yet go farther