1. Refer to figure 1: A frictionless ramp inclined at 30.0° has a solid, homogeneous ball that sits atop the ramp 10.0 m above the ground. From a dead stop it rolls down the ramp. The ball cruises across another frictionless surface at the same velocity when it reached the bottom of the ramp. It proceeds to go up another frictionless ramp inclined at 30.0° but only is 5.00 m high. It then rolls/launches off the second ramp with some velocity. Calculate the initial potential energy the ball had, along with the maximum kinetic energy it gained. Was there any work the ball made while it was cruising between the ramps? What speed did the ball launch off the 2d ramp? Once it's in the air, how high does the ball go? How long does it take to get to that height? How far does it travel horizontally? Figure 1: NOT DRAWN TO SCALE: BallI (yellow) is 10.0 m above the surface of a ramp at 30.0° inclination. The ball shoots off the second ramp, which only goes 5.0 m high. When the ball leaves the 2 ramp, it then splash-lands in a stream (blue).

1. Refer to figure 1: A frictionless ramp inclined at 30.0° has a solid, homogeneous ball that sits atop the ramp 10.0 m above the ground. From a dead stop it rolls down the ramp. The ball cruises across another frictionless surface at the same velocity when it reached the bottom of the ramp. It proceeds to go up another frictionless ramp inclined at 30.0° but only is 5.00 m high. It then rolls/launches off the second ramp with some velocity. Calculate the initial potential energy the ball had, along with the maximum kinetic energy it gained. Was there any work the ball made while it was cruising between the ramps? What speed did the ball launch off the 2d ramp? Once it's in the air, how high does the ball go? How long does it take to get to that height? How far does it travel horizontally? Figure 1: NOT DRAWN TO SCALE: BallI (yellow) is 10.0 m above the surface of a ramp at 30.0° inclination. The ball shoots off the second ramp, which only goes 5.0 m high. When the ball leaves the 2 ramp, it then splash-lands in a stream (blue).

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Concept explainers

Metrology of surface finish

In general terms, the application of scientific principles in the study of measurements is known as metrology. When speaking about measurement, it could be of time, length, microstructures, grain structures, internal crystal discontinuities, surface roughness, measurements of angles, height, width, and so on. While coming to the domain of mechanical engineering, metrology is considered the science of measurements of surface finish, length, surface texture, and angles.

Question

Please show work :)

1. Refer to figure 1: A frictionless ramp inclined at 30.0° has a solid, homogeneous ball that sits
atop the ramp 10.0 m above the ground. From a dead stop it rolls down the ramp. The ball
cruises across another frictionless surface at the same velocity when it reached the bottom of the
ramp. It proceeds to go up another frictionless ramp inclined at 30.0° but only is 5.00 m high. It
then rolls/launches off the second ramp with some velocity. Calculate the initial potential
energy the ball had, along with the maximum kinetic energy it gained. Was there any work the
ball made while it was cruising between the ramps? What speed did the ball launch off the 2nd
ramp? Once it's in the air, how high does the ball go? How long does it take to get to that
height? How far does it travel horizontally?
Figure 1: NOT DRAWN TO SCALE: BallI (yellow) is 10.0 m above the surface of a ramp at 30.0°
inclination. The ball shoots off the second ramp, which only goes 5.0 m high. When the ball
leaves the 2 ramp, it then splash-lands in a stream (blue).

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