Answer:
48.13 m/s²
Explanation:
In this question, circular motion of the ball attached to string turns into trajectory motion.
Radial acceleration = (v²/r)
But we need to find the velocity, v, from the ball's trajectory motion after the string breaks.
For trajectory motion,
Range = (initial horizontal velocity) × (time of flight) = (v)(T)
v = (Range)/T
But time of flight is related to the vertical height, H, at which the trajectory motion starts through the relation,
T = √(2H/g) = √(2×1.2/9.8) = 0.553 s
v = (Range)/T
v = 2.1/0.553
v = 3.80 m/s
Radial acceleration = (v²/r) = (3.8²/0.3)
a = 48.13 m/s²
