Unknown unstretched elastic cord length

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SUMMARY

The optimal length of elastic cord for a jumper descending from a height of 65 meters, stopping 10 meters above the ground, is 11.5 meters. The spring constant (k) is determined as mg/1.5, where m is the mass of the jumper and g is the acceleration due to gravity (9.8 m/s²). The energy conservation principle is applied, equating initial gravitational potential energy to the sum of final gravitational potential energy and spring potential energy. The derived equation is (mgh)i = (mgh)f + 0.5(mg/1.5)(x²), leading to the conclusion that a cord length of 11.5 meters is necessary for the desired stopping height.

PREREQUISITES
  • Understanding of gravitational potential energy (PE) and spring potential energy (PE).
  • Familiarity with the conservation of energy principle.
  • Knowledge of the spring constant and its relationship to cord length.
  • Basic algebra for solving equations involving variables.
NEXT STEPS
  • Study the derivation of the spring constant for different lengths of elastic cords.
  • Learn about energy conservation in mechanical systems.
  • Explore the effects of varying mass on the required cord length in similar scenarios.
  • Investigate real-world applications of elastic cords in bungee jumping and safety equipment.
USEFUL FOR

Physics students, engineers, and anyone involved in designing safety equipment for high-altitude activities will benefit from this discussion.

gosbun
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A person jumps from a balloon 65m above the ground. He will stop 10m above the ground. A 5m length of the same cord stretches 1.5m with his body weight. He will drop from rest at the point where the top end of a longer section of the cord is attached to the stationary balloon. What length of cord should the jumper use?

Is the spring or elastic constant (mg/1.5)? If it is how do I set up the equation?

I know that mgyi=65m, and mgyf=10m.
 
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gosbun said:
Is the spring or elastic constant (mg/1.5)? If it is how do I set up the equation?
That's the spring constant for a 5m length of cord; the spring constant is inversely proportional to the cord length.

The key to this problem is energy conservation: The initial gravitational PE is transformed to spring potential energy. (Spring PE is given by [itex]1/2kx^2[/itex].) Realize that both the maximum spring extension (x) and the spring constant are functions of the cord length: Set up the equation and you can solve for that cord length.
 


The length of the elastic cord that the jumper should use can be calculated by setting up the equation for the conservation of energy. The equation is:

(mgh)i = (mgh)f + 0.5kx^2

Where m is the mass of the jumper, g is the acceleration due to gravity, h is the initial height (65m), and x is the unknown length of the elastic cord.

Since the cord is attached to the stationary balloon, the length of the cord will not change during the jump. Therefore, the change in height (h) will be equal to the change in length of the cord (x).

We can also substitute the value for the elastic constant (k), which is equal to mg/1.5, giving us the final equation:

(mgh)i = (mgh)f + 0.5(mg/1.5)(x^2)

Substituting the given values, we get:

(m)(9.8)(65) = (m)(9.8)(10) + 0.5(m)(9.8/1.5)(x^2)

Solving for x, we get x = 11.5m. Therefore, the jumper should use a 11.5m length of elastic cord to stop 10m above the ground.

It is important to note that the given values assume that the elastic constant (k) is equal to mg/1.5. If this is not the case, the equation and the final answer may differ.
 

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