Hence, prove that projectile is very behn chod
The dimension that controls time in falling body and projectile motion problems is vertical displacement, usually denoted as "y". Time affects how far an object falls or how far it travels horizontally in projectile motion. The equations of motion used to solve these problems involve time as a variable to calculate the position or velocity of the object at a given time.
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.
Zero, assuming there is no air resistance. Gravity does not do work in the horizontal direction during the descent phase of projectile motion because the force of gravity and the displacement are perpendicular to each other, resulting in no work being done by gravity.
Velocity is the time rate of change of displacement of an object. Velocity is the distance travelled in unit time in a stated direction. It is a vector quantity since it gives us both magnitude and direction.
Beam: The long wooden arm that holds and launches the projectile. Counterweight: The heavy weight used to provide the necessary force to launch the projectile. Frame: The support structure that holds the components of the trebuchet together. Counterweight release mechanism: The mechanism that releases the counterweight at the right moment to launch the projectile. Sling: The pouch at the end of the beam that holds the projectile and releases it during the launch.
Projectile motion has two components horizontal motion and vertical motion. Gravity affects only the vertical motion of projectile motion.
Projectile.
Projectile motion is curved because it involves both horizontal and vertical components of motion. The curved path is a result of the object experiencing a constant acceleration due to gravity in the vertical direction, while moving at a constant velocity in the horizontal direction. This combination of horizontal and vertical motions creates the characteristic parabolic trajectory of a projectile.
motion of a projectile
The horizontal component of a projectile follows uniform motion, meaning it moves at a constant velocity in the absence of air resistance or other forces. This motion is independent of the vertical motion of the projectile.
Gravity
To improve projectile motion, you can adjust the initial velocity, launch angle, or launch height of the projectile. By optimizing these parameters, you can achieve greater distance, height, or accuracy in the motion of the projectile. Additionally, reducing air resistance and wind can also help improve the overall projectile motion.
none
Projectile motion is a form of motion wherein an object moves along a curved path under the action of gravity only. The height of a projectile in motion is dependent on gravity.
The mass of a projectile has no direct effect on its horizontal motion in projectile motion. However, a heavier mass may affect the projectile's vertical motion by influencing factors such as initial velocity, air resistance, and gravity, which can impact its trajectory.
Gravity
Projectile motion is a form of motion in which a projectile is thrown near the earth's surface. When thrown, the projectile moves along a curved path because of gravity. An example of projectile motion is a sprinkler shooting water into the air and the water falling back down to Earth.