Final answer:
To calculate the radial acceleration of a point on a flywheel after 2.00 s, more information, such as the angular acceleration, would be necessary to find angular velocity and use the formula for radial acceleration.
Step-by-step explanation:
To determine the magnitude of the radial acceleration of a point on the rim of a flywheel after 2.00 s of acceleration, we need additional information such as the angular acceleration or the final angular velocity. However, the process would involve using the formula for radial (centripetal) acceleration which is ac = rω², where r is the radius and ω is the angular velocity. We could find ω after 2.00 s if the angular acceleration (α) were known, using ω = αt, and then use it to calculate the radial acceleration. Without this information or the final angular velocity, we cannot solve for the radial acceleration. Nevertheless, the calculation of the radial acceleration would provide an important understanding of the dynamics of rotational motion.