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Problem 10: While watching the clouds pass by, you notice a European swallow flying horizontally at a height h = 21.9 m above you. When the swallow is directly overhead, it drops an m = 10.7 kg coconut. From your ornithological studies, you know that the air-speed of this particular species of swallow while carrying such a load is vo = 7.73 m/s. In this problem you may neglect air friction. Refer to the diagram.Assume the origin of the coordinate system there is at your head. h

Problem 10: While watching the clouds pass by, you notice a European swallow flying horizontally at a height h = 21.9 m above you. When the swallow is directly overhead, it drops an m = 10.7 kg coconut. From your ornithological studies, you know that the air-speed of this particular species of swallow while carrying such a load is vo = 7.73 m/s. In this problem you may neglect air friction. Refer to the diagram.Assume the origin of the coordinate system there is at your head. h

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Problem 10: While watching the clouds pass by, you notice a European swallow flying horizontally at a height h = 21.9 m above you. When the swallow is directly overhead, it drops an m = 10.7 kg coconut. From your ornithological studies, you know that the air-speed of this particular species of swallow while carrying such a load is vo = 7.73 m/s. In this problem you may neglect air friction. Refer to the diagram. Assume the origin of the coordinate system there is at your head. h
Transcribed Image Text:Problem 10: While watching the clouds pass by, you notice a European swallow flying horizontally at a height h = 21.9 m above you. When the swallow is directly overhead, it drops an m = 10.7 kg coconut. From your ornithological studies, you know that the air-speed of this particular species of swallow while carrying such a load is vo = 7.73 m/s. In this problem you may neglect air friction. Refer to the diagram. Assume the origin of the coordinate system there is at your head. h
Part (c) Enter an expression for the velocity vector v(t), in meters per second, of the coconut as a function of the given information and the free- fall time t. Let t = 0 be the moment that the coconut is released. Express your answer in unit vector notation. v(t) =
Transcribed Image Text:Part (c) Enter an expression for the velocity vector v(t), in meters per second, of the coconut as a function of the given information and the free- fall time t. Let t = 0 be the moment that the coconut is released. Express your answer in unit vector notation. v(t) =
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