Physics, Books a la Carte Edition (5th Edition)
5th Edition
ISBN: 9780134020853
Author: James S. Walker
Publisher: PEARSON
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Chapter 3, Problem 85PP
BIO Motion Camouflage in Dragonflies
Dragonflies, whose ancestors were once the size of hawks, have prowled the skies in search of small flying insects for over 250 million years. Faster and more maneuverable than any other insect, they even fold their front two legs in flight and tuck them behind their head to be as streamlined as possible. They also employ an intriguing stalking strategy known as “motion camouflage” to approach their prey almost undetected.
The basic idea of motion camouflage is for the dragonfly to move in such a way that the line of sight from the prey to the dragonfly is always in the same direction. Moving in this way, the dragonfly appears almost motionless to its prey, as if it were an object at infinity. Eventually the prey notices the dragonfly has grown in size and is therefore closer but by that time it’s too late for the prey to evade capture.
A typical capture scenario is shown in Figure 3-51, where the prey moves in the positive y direction with the constant speed up = 0.750 m/s, and the dragonfly moves at an angle θ = 48.5° to the x axis with the constant speed vd. If the dragonfly chooses its speed correctly, the line of sight from the prey to the dragonfly will always be in the same direction—parallel to the x axis in this case.
Figure 3-51 Problems 83, 84, 85, and 86
85. •• If the dragonfly approaches its prey with a speed of 0.950 m/s, what angle θ is required to maintain a constant line of sight parallel to the x axis?
- A. 37.9°
- B. 38.3°
- C. 51.7°
- D. 52.1°
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Having calculated the impact and rebound velocities of the ping pong ball and the tennis ball calculate the rebounding impulse:
1.Measure the weight of the balls and determine their mass.
Tennis ball: 0.57 kg Ping Pong Ball: 0.00246 kg
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Chapter 3 Solutions
Physics, Books a la Carte Edition (5th Edition)
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