3) A bungee jumper of mass 65.0 kg jumps off of a bridge with a long bungee cord tied safely and securely to their legs. The bungee cord is assumed to behave like a perfect spring. Below you can find a graph representing the bungee jumper's height above the ground as a function of time. c) Describe two assumptions that were made in this scenario, and explain bow this "ideal" scenario would differ in the real world, where these assumptions are not valid. 100- 10 15 A Time (s) While stretched to its greatest length, the bungee cord is under high tension, and begins to vibrate due to resonance with the local air currents. It's observed behaviour is that of a standing wave on a string which is fixed at both ends. A camera captures an image of the bungee cord, seen below. (note that this image represents its full length) a) Determine the spring constant of this bungee cord. ) Calculate the wavele

3) A bungee jumper of mass 65.0 kg jumps off of a bridge with a long bungee cord tied safely and securely to their legs. The bungee cord is assumed to behave like a perfect spring. Below you can find a graph representing the bungee jumper's height above the ground as a function of time. c) Describe two assumptions that were made in this scenario, and explain bow this "ideal" scenario would differ in the real world, where these assumptions are not valid. 100- 10 15 A Time (s) While stretched to its greatest length, the bungee cord is under high tension, and begins to vibrate due to resonance with the local air currents. It's observed behaviour is that of a standing wave on a string which is fixed at both ends. A camera captures an image of the bungee cord, seen below. (note that this image represents its full length) a) Determine the spring constant of this bungee cord. ) Calculate the wavele

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Question

ransfer from a 400km
ne both planets move
Q 100% Q
Q 100% Q
3) A bungee jumper of mass 65.0 kg jumps off of a bridge with a
long bungee cord tied safely and securely to their legs. The
bungee cord is assumed to behave like a perfect spring.
Below you can find a graph representing the bungee jumper's
height above the ground as a function of time.
c) Describe two assumptions that were made in this scenario, and explain how this "ideal"
scenario would differ in the real world, where these assumptions are not valid.I
100
1,0
15
Time (s)
While stretched to its greatest length, the bungee cord is under high tension, and begins to vibrate
due to resonance with the local air currents. It's observed behaviour is that of a standing wave on
a string which is fixed at both ends. A camera captures an image of the bungee cord, seen below.
(note that this image represents its full length)
a) Determine the spring constant of this bungee cord.
b) Calculate the maximum velocity of the bungee jumper during this process.
d) Calculate the wavelength of the standing wave created by the bungee cord.
.....
DELL
c) Explain how a standing wave pattern is produced on a vibrating string with two fixed ends

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