To determine a trajectory line, only two points are needed. These two points can be used to calculate the slope, which represents the direction and angle of the trajectory. Additional points can be used to further refine the trajectory line and estimate its accuracy.
the ofrmula is x=-b/ab... trust me in in 8th grade taking a 11th grade course!!
Usually yes...but it depends on the angle of trajectory, weight and aerodynamics of the thing being catapulted, the length of the "arm" of the catapult, and the amount of force that the catapult is set to hurl the object. Example: a feather on the 10lb catapult which is set at a high trajectory and a low force will go almost nowhere while a stone from a 3 pound catapult will go much farther if it is set on a perfect trajectory and maximum force.
its not 45 degrees on earth cos of air resistence and whatnot.. its 45.something or 44.something.. either way i hope this spurs u on to find the real answer
A projectile has minimum speed at the top of the trajectory.
This means 'High Trajectory'. That is, a high launch angle.
A trajectory is the angle made with the horizontal when a projectile is fired. Suppose the projectile is a cannon ball. Assuming air is frictionless, that cannon ball will travel the greatest distance if the trajectory is 45 degrees from horizontal.
A catapult's trajectory refers to the path followed by the projectile launched by the catapult. It is typically parabolic in shape, with the highest point of the trajectory known as the apex. The trajectory is influenced by factors such as the launch angle, initial velocity, and gravitational pull.
The angle at which a rocket needs to be launched, known as the launch angle or launch azimuth, depends on the desired trajectory and destination of the rocket. It is typically determined through complex calculations accounting for factors such as Earth's rotation, launch site location, and orbital mechanics to achieve the desired orbit or trajectory.
The pull-back angle can affect the launch distance by changing the trajectory of the object being launched. A larger pull-back angle can result in a higher launch angle, which may increase the height of the trajectory and potentially increase the distance. However, too large of a pull-back angle may also reduce the launch speed, which can decrease the overall distance.
Angle, initiall velocity and that type of stuff mate Grate Mann, 1999 ----
To determine a trajectory line, only two points are needed. These two points can be used to calculate the slope, which represents the direction and angle of the trajectory. Additional points can be used to further refine the trajectory line and estimate its accuracy.
The path taken by a missile or projectile is determined by its initial velocity, angle of launch, and external forces like gravity and air resistance. This path is usually a parabolic curve known as a projectile trajectory. The trajectory can be calculated using physics equations such as the kinematic equations of motion.
Projectile trajectory refers to the path that a projectile follows from the moment it is launched until it reaches its target or hits the ground. It is influenced by factors such as initial velocity, launch angle, air resistance, and gravity. The shape of the trajectory is typically parabolic in nature.
Yes, the angle at which an object is projected affects the path of its projectile motion. A higher launch angle will result in a longer flight time and distance, while a lower launch angle will result in a shorter, more vertical trajectory.
if a body is thrown having initial velocity and make angle with ground this body is known as projectile and the way is calle trajectory
The curved path of an object thrown or launched on or near the surface of a planet is called a trajectory. This trajectory is influenced by gravity, air resistance, and the initial velocity of the object. The shape of the trajectory can be parabolic for objects thrown horizontally, or elliptical for objects thrown at an angle.