When the stone is released from its circular path, it moves in a straight line tangential to the circle at the point of release. This motion is due to inertia, which causes the stone to continue in the direction it was moving at that instant.
When the stone is released from its circular path, it moves in a straight line tangential to the circle at the point of release. This motion is due to inertia, which causes the stone to continue in the direction it was moving at that instant.
Uniform circular motion is the movement of an object at a constant speed along a circular path. Despite the constant speed, the object’s direction continuously changes, resulting in a constantly changing velocity due to the consistent centripetal acceleration directed towards the center of the circlRead more
Uniform circular motion is the movement of an object at a constant speed along a circular path. Despite the constant speed, the object’s direction continuously changes, resulting in a constantly changing velocity due to the consistent centripetal acceleration directed towards the center of the circle.
The motion of the athlete along a circular path is considered an example of accelerated motion because the athlete's direction of motion constantly changes, even if the speed remains constant. This change in direction results in a continuous change in velocity, which is acceleration. In circular motRead more
The motion of the athlete along a circular path is considered an example of accelerated motion because the athlete’s direction of motion constantly changes, even if the speed remains constant. This change in direction results in a continuous change in velocity, which is acceleration. In circular motion, this acceleration is called centripetal acceleration, always directed toward the center of the circle.
What happens to the stone when it is released from its circular path?
When the stone is released from its circular path, it moves in a straight line tangential to the circle at the point of release. This motion is due to inertia, which causes the stone to continue in the direction it was moving at that instant.
When the stone is released from its circular path, it moves in a straight line tangential to the circle at the point of release. This motion is due to inertia, which causes the stone to continue in the direction it was moving at that instant.
See lessWhat is the definition of uniform circular motion?
Uniform circular motion is the movement of an object at a constant speed along a circular path. Despite the constant speed, the object’s direction continuously changes, resulting in a constantly changing velocity due to the consistent centripetal acceleration directed towards the center of the circlRead more
Uniform circular motion is the movement of an object at a constant speed along a circular path. Despite the constant speed, the object’s direction continuously changes, resulting in a constantly changing velocity due to the consistent centripetal acceleration directed towards the center of the circle.
See lessWhy is the motion of the athlete along a circular path considered an example of accelerated motion?
The motion of the athlete along a circular path is considered an example of accelerated motion because the athlete's direction of motion constantly changes, even if the speed remains constant. This change in direction results in a continuous change in velocity, which is acceleration. In circular motRead more
The motion of the athlete along a circular path is considered an example of accelerated motion because the athlete’s direction of motion constantly changes, even if the speed remains constant. This change in direction results in a continuous change in velocity, which is acceleration. In circular motion, this acceleration is called centripetal acceleration, always directed toward the center of the circle.
See less