Resources Lx Give Up? V Hint Check Answer 4 of 8 Attempt 2 Froghopper insects have a typical mass of around 12.9 mg and can jump to a height of 51.3 cm. The takeoff velocity is achieved as the insect flexes its legs over a distance of approximately 2.00 mm. Assume that the jump is vertical and that the froghopper undergoes constant acceleration while its feet are in contact with the ground. Ignore air resistance. What is the acceleration of the insect during the time of the jump (before it leaves the ground)? acceleration: 3.17 m/s? In During the jump, how long are the froghopper's feet in contact with the ground? duration of contact: What force did the ground exert on the froghopper during the jump? Express your answer as a multiple of the insect's weight. force: x froghopper's weight

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Chapter1: Units, Trigonometry. And Vectors
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Lx Give Up?
V Hint
Check Answer
4 of 8
Attempt 2
Froghopper insects have a typical mass of around 12.9 mg and can jump to a height of 51.3 cm. The takeoff velocity is
achieved as the insect flexes its legs over a distance of approximately 2.00 mm. Assume that the jump is vertical and that the
froghopper undergoes constant acceleration while its feet are in contact with the ground. Ignore air resistance.
What is the acceleration of the insect during the time of the jump (before it leaves the ground)?
acceleration:
3.17
m/s?
In
During the jump, how long are the froghopper's feet in contact with the ground?
duration of contact:
What force did the ground exert on the froghopper during the jump? Express your answer as a multiple of the insect's weight.
force:
x froghopper's weight
Transcribed Image Text:Resources Lx Give Up? V Hint Check Answer 4 of 8 Attempt 2 Froghopper insects have a typical mass of around 12.9 mg and can jump to a height of 51.3 cm. The takeoff velocity is achieved as the insect flexes its legs over a distance of approximately 2.00 mm. Assume that the jump is vertical and that the froghopper undergoes constant acceleration while its feet are in contact with the ground. Ignore air resistance. What is the acceleration of the insect during the time of the jump (before it leaves the ground)? acceleration: 3.17 m/s? In During the jump, how long are the froghopper's feet in contact with the ground? duration of contact: What force did the ground exert on the froghopper during the jump? Express your answer as a multiple of the insect's weight. force: x froghopper's weight
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