Consevative and non-conservative forces

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The discussion centers on determining the point of maximum speed for a ball projected by a toy cannon using a spring. The spring's force initially accelerates the ball until friction overcomes this force, causing the ball to decelerate. The maximum speed occurs when the spring force equals the frictional force. Calculations show that the distance from the spring's equilibrium position where this balance occurs is approximately 0.4079 cm. This distance must be added to the initial compression to find the total distance traveled before maximum speed is reached.
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A toy cannon uses a spring to project a 5.39 g soft rubber ball. The spring is originally compressed by 4.99 cm and has a force constant of 8.04 N/m. When the cannon is fired, the ball moves 15.8 cm through the horizontal barrel of the cannon, and there is a constant frictional force of 0.0328 N between the barrel and the ball.



At what point does the ball have maximum speed?


I do not know where to start... If I set F=fx and F=ma, then I get speed at 4.99cm which is incorrect. Can someone please help?
 
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Imagine the process. At first, the spring is stronger than friction and accelerates the ball. At some point, friction overcomes the spring force and the ball starts slowing down. So the point of maximum speed is the point where these two forces are equal.
 
Thank you so much for responding.
If that is the case, my answer still does not make sense. If Kx=friction, then 8.04x=0.0328 which causes x to be 0.4079cm.
 
That's the distance from equilibrium. Remember that the spring is originally 4.99 cm from equilibrium.
 
thank you, thank you, thank you! :-)
 

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