A bungee jumper steps off a bridge with zero initial velocity and falls straight down towards the river 100.0 meters below. Her bungee rope acts like an ideal spring and has a length of 30.0 meters in its neutral, unstretched state. If the bungee jumper just barely touches the water when she gets to the maximum extent of her plunge, what must the spring constant of her rope be? Assume the bungee jumper has a mass of 85.0 kg and can be treated as a point mass (that is, you don’t have to take her height into account!)
A bungee jumper steps off a bridge with zero initial velocity and falls straight down towards the river 100.0 meters below. Her bungee rope acts like an ideal spring and has a length of 30.0 meters in its neutral, unstretched state. If the bungee jumper just barely touches the water when she gets to the maximum extent of her plunge, what must the spring constant of her rope be? Assume the bungee jumper has a mass of 85.0 kg and can be treated as a point mass (that is, you don’t have to take her height into account!)
College Physics
10th Edition
ISBN:9781285737027
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter13: Vibrations And Waves
Section: Chapter Questions
Problem 12P: An automobile having a mass of 1.00 103 kg is driven into a brick wall in a safety test. The bumper...
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A bungee jumper steps off a bridge with zero initial velocity and falls straight down towards the river 100.0 meters below. Her bungee rope acts like an ideal spring and has a length of 30.0 meters in its neutral, unstretched state. If the bungee jumper just barely touches the water when she gets to the maximum extent of her plunge, what must the spring constant of her rope be? Assume the bungee jumper has a mass of 85.0 kg and can be treated as a point mass (that is, you don’t have to take her height into account!)
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