Answer:
(i) 140 N/m
(ii) 28 m/s²
Explanation:
(i)
At the top of the jump, the bungee jumper has gravitational potential energy.
At the bottom of the jump, the bungee jumper has elastic potential energy.
mgh = ½ kx²
(60 kg) (9.8 m/s²) (31 m) = ½ k (31 m − 15 m)²
k = 140 N/m
(ii)
At the bottom of the jump:
∑F = ma
kx - mg = ma
(140 N/m) (31 m − 15 m) − (60 kg) (9.8 m/s²) = (60 kg) a
a = 28 m/s²
