The curved path of an object moving through the air is called a parabolic trajectory. This trajectory is a result of the combination of the object's initial velocity and the force of gravity acting on it.
An object moving in a curved path affected only by gravity is called a projectile.
If a net force acts at an angle to the direction an object is moving, the object will follow a curved path. This is because the force causes both a change in the object's speed and its direction. The object will move in the direction of the net force, but its trajectory will be curved due to the combination of the force and the object's initial velocity.
Centrifugal force is not considered to be real because it is actually an apparent force that arises from the inertia of an object moving in a curved path. In reality, the object is moving in a straight line, but due to the curved path, it appears as if there is a force pushing the object outward.
The force that keeps an object moving on a curved path and is directed inward toward the center of rotation is called centripetal force. This force is necessary to prevent the object from moving in a straight line and to keep it moving along the circular path.
An object moving in a straight line maintains a constant direction from its starting point. An object moving in a curved trajectory is following a path that is not straight and may be influenced by another object's gravitational pull or magnetic field.
An object moving in a curved path affected only by gravity is called a projectile.
Yes, if a net force acts at an angle to the direction an object is moving, the object will follow a curved path. This is because the force will cause the object to accelerate in a direction that is not directly in line with its original velocity, resulting in a change in the object's path.
If a net force acts at an angle to the direction an object is moving, the object will follow a curved path. This is because the force causes both a change in the object's speed and its direction. The object will move in the direction of the net force, but its trajectory will be curved due to the combination of the force and the object's initial velocity.
Centrifugal force is not considered to be real because it is actually an apparent force that arises from the inertia of an object moving in a curved path. In reality, the object is moving in a straight line, but due to the curved path, it appears as if there is a force pushing the object outward.
The force that keeps an object moving on a curved path and is directed inward toward the center of rotation is called centripetal force. This force is necessary to prevent the object from moving in a straight line and to keep it moving along the circular path.
An object moving in a straight line maintains a constant direction from its starting point. An object moving in a curved trajectory is following a path that is not straight and may be influenced by another object's gravitational pull or magnetic field.
Centripetal acceleration.
Acceleration
i think itscentripetal force
Yes. The centripetal force acts on any body moving along a curved path. It acts along the radius of the path and is pointed towards the centre. If friction is in the equation there will need to be a force behind the object to counter the slowing effect as well.
The direction of acceleration of an object moving on a circular path at constant speed is pointed towards the center of the circle. This acceleration is called centripetal acceleration and is necessary to keep the object moving in a curved path.
The unbalanced force that causes an object to move in a circular path is called centripetal force. This force acts towards the center of the circle and keeps the object moving in its curved path instead of moving in a straight line.