A team of engineering students designs a medium size catapult which launches 8 kg steel spheres. The launch speed is vo = 45 m/sec, the launch angle is = 35° above the horizontal, and the launch position is 6 m above ground level as shown in Figure-3. The students use an athletic field with an adjoining slope topped by an 8 m fence as shown in the Figure, which is 130 m away from the releasing point of steel spheres. Neglect the air resistance for the following calculations. y Vo = 45 m/sec fence 8m 0 = 35° 20m 6m 100 m 30m- Figure-3 Calculate the x-y coordinates of the point of first impact of the steel sphere.

A team of engineering students designs a medium size catapult which launches 8 kg steel spheres. The launch speed is vo = 45 m/sec, the launch angle is = 35° above the horizontal, and the launch position is 6 m above ground level as shown in Figure-3. The students use an athletic field with an adjoining slope topped by an 8 m fence as shown in the Figure, which is 130 m away from the releasing point of steel spheres. Neglect the air resistance for the following calculations. y Vo = 45 m/sec fence 8m 0 = 35° 20m 6m 100 m 30m- Figure-3 Calculate the x-y coordinates of the point of first impact of the steel sphere.

Classical Dynamics of Particles and Systems

5th Edition

ISBN:9780534408961

Author:Stephen T. Thornton, Jerry B. Marion

Publisher:Stephen T. Thornton, Jerry B. Marion

Chapter2: Newtonian Mechanics-single Particle

Section: Chapter Questions

Problem 2.17P: A strong softball player smacks the ball at a height of 0.7 m above home plate. The ball leaves the...

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