Question

A simplified model of a bungee jump can be analyzed in two sections: a freefall section in which the bungee cord has not yet begun stretching and a section in the lower portion of the jump in which the bungee cord stretches and exerts a force on the jumper. The cord is assumed to exert zero force on the jumper until its length exceeds its maximum unstretched length. Determine the maximum unstretched length of a bungee cord of spring constant 100 N/m such that a 70-kg jumper will not hit the ground when jumping from a height of 45 m.

Answer 1

`20.14\ \text{m}`

Step-by-step explanation:

m = Mass of person = 70 kg

k = Spring constant = 100 N/m

h = Total length of the bungee cord = 45 m

The energy balance of the system is

`mgh=(1)/(2)kx^2\\\Rightarrow x=\sqrt{(2mgh)/(k)}\\\Rightarrow x=\sqrt{(2* 70* 9.81* 45)/(100)}\\\Rightarrow x=24.86\ \text{m}`

Maximum unstretched length would be
`h-x=45-24.86=20.14\ \text{m}`.