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.
Both projectile motion and circular motion involve the motion of an object in a curved path. In projectile motion, the object follows a curved path due to the influence of gravity, while in circular motion, the object moves in a circle with a constant radius. Both involve centripetal acceleration that changes the direction of the object's velocity without changing its speed.
Projectile motion was first studied by Galileo Galilei in the late 16th century. He observed that an object in motion follows a curved path due to the combined effects of its horizontal and vertical motion.
The two independent components of projectile motion are the horizontal motion (constant velocity) and the vertical motion (free fall). These two components combine to form a curved path due to the influence of gravity acting on the object.
The two things that cause projectile motion are gravity, which acts vertically, and an initial horizontal velocity. These two factors combined result in the curved path followed by a projectile.
Gravity
it follows a curved path
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.
Both projectile motion and circular motion involve the motion of an object in a curved path. In projectile motion, the object follows a curved path due to the influence of gravity, while in circular motion, the object moves in a circle with a constant radius. Both involve centripetal acceleration that changes the direction of the object's velocity without changing its speed.
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.
Projectile motion was first studied by Galileo Galilei in the late 16th century. He observed that an object in motion follows a curved path due to the combined effects of its horizontal and vertical motion.
The two independent components of projectile motion are the horizontal motion (constant velocity) and the vertical motion (free fall). These two components combine to form a curved path due to the influence of gravity acting on the object.
The two things that cause projectile motion are gravity, which acts vertically, and an initial horizontal velocity. These two factors combined result in the curved path followed by a projectile.
Gravity
The path of motion of a thrown javelin is an example of projectile motion. This type of motion involves a projectile being launched into the air and moving in a curved path under the influence of gravity. The motion can be described using principles of physics, such as kinematics and dynamics.
An object is in projectile motion if it is only under the influence of gravity and air resistance is negligible. The object follows a curved path called a projectile trajectory. The motion can be broken down into horizontal and vertical components.
Projectile motion is a type of motion where an object is thrown or projected into the air and moves along a curved path under the influence of gravity. It is a combination of horizontal and vertical motion, following a parabolic trajectory.
The two forces acting on a projectile in motion are gravity, which always acts downward, and air resistance, which opposes the projectile's motion through the air. Gravity causes the projectile to follow a curved path, while air resistance slows down its movement.