Answer :
Answer:
1.292 m/s
Explanation:
For her trajectory motion, the time taken to descend to a height of 9 m is given as
t = √(2H/g) = √[(2×9)/9.8] = 1.355 s
Then the range (horizontal distance covered) is related to the time to reach that height and the corresponding horizontal velocity as shown in
R = ut
where u = initial horizontal velocity
1.75 = u × 1.355
u = 1.292 m/s
This is the minimum speed just as she leaves the top of the cliff to miss the ledge described in the question.