Question: An ideal spring that is initially compressed is released at the initial time to throw an object of mass (m=60 mathrm{~g}) upward. The body reaches

An ideal spring that is initially compressed is released at the initial time to throw an object of mass \(m=60 \mathrm{~g}\) upward. The body reaches a height \(h=2.0 \mathrm{~m}\) from its initial position. With the same spring compression, the object is thrown on an inclined plane having a slope of \(25^{\circ}\) degrees and a dynamic friction coefficient \(\mu_{d}=0.20\). Determine to what height \(h^{\prime}\) the body will arrive.

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To determine the height hprime the body will reach when thrown on an inclined plane with a slope of 25circ and a dynamic friction coefficient mud020 we need to consider the energy transformations and ... View full answer

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