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State the expression for centripetal force in terms of mass, velocity, and radius of circular motion.
The expression for centripetal force is given by (F_c = frac{mv^2}{r}), where (F_c) is the centripetal force, (m) is the mass of the object, (v) is the velocity of the object, and (r) is the radius of the circular path.
The expression for centripetal force is given by (F_c = frac{mv^2}{r}), where (F_c) is the centripetal force, (m) is the mass of the object, (v) is the velocity of the object, and (r) is the radius of the circular path.
See lessExplain the concept of centrifugal force.
Centrifugal force is a perceived outward force experienced by an object in circular motion, as if it is being pushed away from the center. However, it is not a real force but rather a result of inertia. It is observed in a rotating reference frame.
Centrifugal force is a perceived outward force experienced by an object in circular motion, as if it is being pushed away from the center. However, it is not a real force but rather a result of inertia. It is observed in a rotating reference frame.
See lessDefine centripetal force and provide an example.
Centripetal force is the inward force acting on an object moving in a circular path. It always points towards the center of the circle. An example is the tension force in a string that keeps a ball moving in a horizontal circle.
Centripetal force is the inward force acting on an object moving in a circular path. It always points towards the center of the circle. An example is the tension force in a string that keeps a ball moving in a horizontal circle.
See lessDefine tangential acceleration in circular motion.
Tangential acceleration in circular motion is the acceleration of an object along the tangent to the circular path. It is caused by changes in the object's linear velocity and is directed tangent to the circle.
Tangential acceleration in circular motion is the acceleration of an object along the tangent to the circular path. It is caused by changes in the object’s linear velocity and is directed tangent to the circle.
See lessExplain the concept of rotational inertia.
Rotational inertia, also known as moment of inertia, is a measure of an object's resistance to changes in its rotational motion. It depends on the mass distribution and the shape of the object.
Rotational inertia, also known as moment of inertia, is a measure of an object’s resistance to changes in its rotational motion. It depends on the mass distribution and the shape of the object.
See lessDefine period of revolution in circular motion.
Period of revolution in circular motion is the time taken by an object to complete one full revolution around a circle or a central axis. It is the same as the time period in circular motion.
Period of revolution in circular motion is the time taken by an object to complete one full revolution around a circle or a central axis. It is the same as the time period in circular motion.
See lessExplain the concept of rotational motion.
Rotational motion is the motion of an object around an axis. It involves the rotation of an object rather than its linear motion. Objects in rotational motion have angular displacement, angular velocity, and angular acceleration.
Rotational motion is the motion of an object around an axis. It involves the rotation of an object rather than its linear motion. Objects in rotational motion have angular displacement, angular velocity, and angular acceleration.
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