40 m s70 mFIGURE 23. FIGURE 2 shows a stone is thrown horizontally with initial velocity 40 ms-1 from thetop of 70 m high building.(i) Sketch the path traversed by the stone to the ground and indicate the velocity componentsand resultant velocity of the stone 15 m from the ground.(ii) Calculate the resultant velocity of the stone 15 m from the ground. [Answer:v= 51.73 m s](iv) Calculate the time of flight. [Answer: t = 3.78 s ](v) Calculate the range. [Answer: R=151.2 m]

Name: 40 m s70 mFIGURE 23. FIGURE 2 shows a stone is thrown horizontally wi
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Description: 40 m s70 mFIGURE 23. FIGURE 2 shows a stone is thrown horizontally with initial velocity 40 ms-1 from thetop of 70 m high building.(i) Sketch the path traversed by the stone to the ground and indicate the velocity componentsand resultant velocity of

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40 m s 70 m FIGURE 2 3. FIGURE 2 shows a stone is thrown horizontally with initial velocity 40 m s-1 from top of 70 m high building. (i) Sketch the path traversed by the stone to the ground and indicate the velocity compone and resultant velocity of the stone 15 m from the ground. (ii) Calculate the resultant velocity of the stone 15 m from the ground. [Answ v= 51.73 ms] (iv) Calculate the time of flight. [Answer: 1= 3.78 s]

40 m s 70 m FIGURE 2 3. FIGURE 2 shows a stone is thrown horizontally with initial velocity 40 m s-1 from top of 70 m high building. (i) Sketch the path traversed by the stone to the ground and indicate the velocity compone and resultant velocity of the stone 15 m from the ground. (ii) Calculate the resultant velocity of the stone 15 m from the ground. [Answ v= 51.73 ms] (iv) Calculate the time of flight. [Answer: 1= 3.78 s]

University Physics Volume 1

18th Edition

ISBN:9781938168277

Author:William Moebs, Samuel J. Ling, Jeff Sanny

Publisher:William Moebs, Samuel J. Ling, Jeff Sanny

Chapter4: Motion In Two And Three Dimensions

Section: Chapter Questions

Problem 36P: An airplane flying horizontally with a speed of 500 km/h at a height of 800 m drops a crate of...

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