Ball rolling off ramp - what happens?

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When a ball rolls off a ramp, its horizontal velocity remains constant while its vertical velocity increases due to gravity. The horizontal component of motion does not increase as the ball leaves the ramp; instead, it maintains the speed it had at the end of the ramp. The kinetic energy from the vertical component converts into vertical motion as the ball falls. Using conservation of energy principles simplifies the calculation of the ball's final speed. Understanding the forces acting on the ball, including gravity and the normal force, is crucial for analyzing its motion.
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Homework Statement


http://puu.sh/2fjvF
If a ball rolls off a ramp like in the diagram, what happens in terms of vertical and horizontal components? Neglecting all friction etc, I understand the horizontal component would not change, but what happens when it comes off the ramp? Does the horizontal component increase? If not, where does the kinetic energy from the vertical component go, since it only has a horizontal component now...

Thanks
 
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The horizontal component does change. If you look at the free body diagram for the object (neglecting fricton) you see that there are two forces acting: gravity and the normal force. These combine to give a resultant (net) force parallel to the ramp, which means that the acceleration has both vertical and horizontal components.

Without having to consider all of those details, you can easily get the final kinetic energy and hence speed, using conservation of energy.
 
Thanks a lot cepheid! I didn't even think of the inclined plane force diagram, silly me :p

All the best.
 

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