How do I calculate the maximum speed of a bungee jumper?

  • Thread starter Thread starter haha
  • Start date Start date
  • Tags Tags
    Homework
AI Thread Summary
To calculate the maximum speed of a bungee jumper, the spring constant of the bungee cord is determined to be 250 N/m based on the initial stretch. For a 60 kg woman jumping from a 30 m platform, the bungee cord should be 18 m long after accounting for a 12 m stretch at equilibrium. The maximum speed reached during the jump is calculated to be approximately 24.24 m/s. The discussion emphasizes the importance of showing work for homework-related questions. Overall, participants are focused on solving the physics problem related to bungee jumping dynamics.
haha
Messages
12
Reaction score
0
i need help with this ! please help

here's the problem
Bungee core originally is 15m (meter) long. When a 500N (Newton) weight is hung from it , the new length is 17m( it stretches 2 meters)
a) what is the spring constant of the bungees core
b) how long a bungee should be if a 60kg woman use it to jump off a 30m (meter) tall platform.
c) what tretch does equilibrium occur?
d) what maximum speed is reached?


please please help me it's urgent
u only need to do c and d because i already figured out a and b
thanks a lot thanks thanks thanks:cry::confused::confused::cry::rolleyes::rolleyes:
 
Last edited:
Physics news on Phys.org
Welcome to the forums. We have a policy here that we do not do homework for students, and we do not help until the student shows his/her work. So, what have you done thus far? Perhaps you could post the work you have done on the first two parts, and how you think you should attack the next part.

Oh, and in future, please note we have specialised homework forums in which you should post your problem.
 
sorry this is my first post to this forum
it's my mistake but can anyone help me with this problem?\thank you
 
ok this is the first two part
F=-kx ( F is force, k is the spring constant, and x is the distance the bungee stretche)
k=500/2
k=250n/m( that is the spring constant)
b)

Potential energy / Kinetic energy / Energy of the bungee /Total energy
60x10x30 0 0 18000jouls

0 0 1/2x250x X Square 18000jouls
X=12 meter (how long the bungee will stretch) 30-12=18 meter( how long the bungee core need to be)
hint : little x stands for multiplication sign
someone please help me with c and d​
thank you[/CENTER][/LEFT]
 
Last edited:
Presumably c and d are based on a 60 kg woman dropping from a 30 m platform.

c. Max stretch at equilibrium occurs with the 60 kg woman hanging

d. What happens when the bungee starts stretching?
 
Last edited:
For c), is it asking what's the extension of the rope when the woman is hanging?

For d), this one is quite easy... At what point of the descent will the woman have the maximum speed?
 
i think about D but i can't get the answer for it
can you please show me how to do it ? cause I am not really goood at physic
 
ok this is the answer that i got for D
maximum speed of the woman is 24.24m/s^2
is this right please help me
 

Similar threads

How Do You Calculate the Speed of a Bungee Jumper 19m Below the Launch Point?
Replies
7
Views
6K
Bungee Jumper Acceleration and Distance Problem
Replies
2
Views
6K
Calculating the Minimum Safe Drop Height for a Bungee Jumper
Replies
1
Views
2K
How Do You Calculate Speed Without Time in a Bungee Jump Scenario?
Replies
6
Views
3K
Maximum acceleration using energy principle
Replies
1
Views
6K
How Do You Calculate Impulse for a Bungee Jumper?
Replies
4
Views
3K
Bungee Jumping Maths: Calculating Height, Length & Speed for NZ Bridge Jumps
Replies
1
Views
6K
Solving Tension Acceleration in Bungee Jump Apparatus
Replies
9
Views
22K
How to find the Max. distance of the bungee jumper?
Replies
3
Views
4K
How High Did Jose Jump Above the Lowest Point on His Bungee Adventure?
Replies
1
Views
4K

Hot Threads

Recent Insights

Back
Top