![4./Your adventurous friend Lola goes bungee jumping. She leaps from a bridge that is 100 m above a river. Her bungee cord has an un-stretched length of 50 m and a spring constant k - 600 N/m. Lola has a mass of 48 kg. How fast is she falling when she just starts to stretch the cord? How long does it take for Lola to reach this point? a) Lola stretches the bungee cord and it brings her to a stop. She then bounces back up again. What type(s) of mechanical energy does the system (Lola and the bungee cord) have just before she jumps? (i.e., gravitational PE, elastic PE, kinetic energy, etc.) What type(s) of energy does the system have at the instant she comes to rest at her lowest point? b) What is her height above the river at her lowest point? (Hint: use energy for this, assume no energy is lost, and remember that the energy stored in a stretched bungee c) cord [or spring] is x), where Ax is the amount of stretch.)](http://img.homeworklib.com/questions/256ca590-7456-11ea-a127-594ffcbab3ab.png?x-oss-process=image/resize,w_560)
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4./Your adventurous friend Lola goes bungee jumping. She leaps from a bridge that is 100 m...
Your 60 kg friend is bungee jumping from a bridge which is 60 m high. She...
Your 60 kg friend is bungee jumping from a bridge which is 60 m high. She falls a distance of 25 m before her bungee starts to stretch. -If she starts from rest at the top of the bridge, what is her change in kinetic energy (in kJ) right before her bungee begins to stretch? -If the bungee brings her to a stop when she is just about to to hit the ground (has fallen a distance 60 m), what...
Your 60kg friend is bungee jumping from a bridge 55 m high. She falls a distance...
Your 60kg friend is bungee jumping from a bridge 55 m high. She falls a distance of 25 m before her bungee starts to stretch. If the bungee brings her to a stop when she is just about to hit the ground (has fallen a distance of 55 m), what is the elastic potential energy stored in the bungee? (in kJ)
Your 60kg friend is bungee jumping from a bridge which is 55 m high. She falls...
Your 60kg friend is bungee jumping from a bridge which is 55 m high. She falls a distance of 25 m before her bungee starts to stretch. What is her change in gravitational potential energy? (in kJ) Ignore air resistance
An 80.0 kg bungee jumper drops from rest off a bridge that is 200.0 m above...
An 80.0 kg bungee jumper drops from rest off a bridge that is 200.0 m above a river. As he falls, air resistance is negligible, and the unstretched bungee cord attached to him uncoils. The mass of the bungee cord is negligible. When the jumper is 50.0 m below the bridge, the bungee cord is completely uncoiled and forms a straight line. Below that point, the bungee cord acts as a spring, obeying Hooke's law as it is stretched beyond...
You and a friend decide to go bungee jumping off a nearby bridge. Tests of the...
You and a friend decide to go bungee jumping off a nearby bridge. Tests of the bungee demonstrate that it behaves like an ideal spring. When your friend (mass=75kg) jumps you are on a rock 40.0m below the bridge and observe him to pass you at 25m/s. The bungee hangs 20.0m below the bridge when nothing is attached and 25.0m when a 75kg mass is attached but at rest (equilibrium). a) Use conservation of energy to write down a relation...
A 90 kg student jumps off a bridge with a 8-m-long bungee cord tied to his...
A 90 kg student jumps off a bridge with a 8-m-long bungee cord tied to his feet. The massless bungee cord has a spring constant of 400 N/m. You can assume that the bungee cord exerts no force until it begins to stretch. How far below the bridge is the student's lowest point? How far below the bridge is the student's resting position after the oscillations have been fully damped?
An intrepid physics student decides to try bungee jumping. She obtains a cord that is 9.39...
An intrepid physics student decides to try bungee jumping. She obtains a cord that is 9.39 m long and has a spring constant of 8.00 ✕ 102N/m. When fully suited, she has a mass of 72.6 kg. She looks for a bridge to which she can tie the cord and step off. Determine the minimum height of the bridge that will allow her to stay dry (that is, so that she stops just before hitting the water below). Assume air...
When bungee jumping from a high bridge over Victoria Falls, an operator first attaches an elastic...
When bungee jumping from a high bridge over Victoria Falls, an operator first attaches an elastic rope to the jumper. The jumper then jumps off the bridge, falling freely until they reach the unstretched length of the rope Then, the rope begins to stretch and slows the jumper to a stop. The rope pulls the jumper back up, and they oscillate up and down for a while until the operator pulls the jumper back up to the bridge. The rope...
5. In bungee jumping, it is obviously important to know in advance how far an elastic cord of un-...
5. In bungee jumping, it is obviously important to know in advance how far an elastic cord of un-stretched length L will stretch with a given weight attached to its end. In one model for this elongation, the cord is simply considered to be a weak spring with constant k and the person tied to the end of the cord is a point mass m. Air resistance and any pendulum motion of the cord mass system are ignored. Suppose a...
with detailed steps please. thank you! An intrepid physics student decides to try bungee jumping. She...
with detailed steps please. thank you!
An intrepid physics student decides to try bungee jumping. She obtains a cord that is h 12m long and has a spring constant of K -300 N/m. When fully suited, she has a mass of m 69 kg. She looks for a bridge to which she can tie the cord and step off. Determine the minimum height of the bridge L, that will allow her to stay dry (that is, so that she stops...
An 80.0 kg bungee jumper drops from rest off a bridge that is 200.0 m above a river. As he falls, air resistance is negligible, and the unstretched bungee cord attached to him uncoils. The mass of the bungee cord is negligible. When the jumper is 50.0 m below the bridge, the bungee cord is completely uncoiled and forms a straight line. Below that point, the bungee cord acts as a spring, obeying Hooke's law as it is stretched beyond...
When bungee jumping from a high bridge over Victoria Falls, an operator first attaches an elastic rope to the jumper. The jumper then jumps off the bridge, falling freely until they reach the unstretched length of the rope Then, the rope begins to stretch and slows the jumper to a stop. The rope pulls the jumper back up, and they oscillate up and down for a while until the operator pulls the jumper back up to the bridge. The rope...
5. In bungee jumping, it is obviously important to know in advance how far an elastic cord of un-stretched length L will stretch with a given weight attached to its end. In one model for this elongation, the cord is simply considered to be a weak spring with constant k and the person tied to the end of the cord is a point mass m. Air resistance and any pendulum motion of the cord mass system are ignored. Suppose a...
with detailed steps please. thank you!
An intrepid physics student decides to try bungee jumping. She obtains a cord that is h 12m long and has a spring constant of K -300 N/m. When fully suited, she has a mass of m 69 kg. She looks for a bridge to which she can tie the cord and step off. Determine the minimum height of the bridge L, that will allow her to stay dry (that is, so that she stops...
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