relindwto6 Posted August 2, 2020 Share Posted August 2, 2020 A block of 8 kg slides upward through a ramp (without friction) until it goes to rest. ¿What would be the maximum height achieved if the block had an initial velocity is 12 m/s ? I´ve tried to solve it in different ways (Newton´s Second Law, Kinematics equations, etc) but I always get stuck. I´ve arrived to the conclusion that the problem is missing key information about the angle that the ramp forms with respect to the horizontal. Help! Link to comment Share on other sites More sharing options...
Dord Posted August 2, 2020 Share Posted August 2, 2020 (edited) I don't know for sure, but maybe the question is asking you to consider all possible angles for the ramp: aka "inclined plane" Edited August 2, 2020 by Dord Link to comment Share on other sites More sharing options...
Ghideon Posted August 2, 2020 Share Posted August 2, 2020 Is this a homework question? Hint: can you compare the initial kinetic energy to final maximum potential energy? Does such a comparison require a known angle ? Link to comment Share on other sites More sharing options...
studiot Posted August 2, 2020 Share Posted August 2, 2020 (edited) 2 hours ago, relindwto6 said: A block of 8 kg slides upward through a ramp (without friction) until it goes to rest. ¿What would be the maximum height achieved if the block had an initial velocity is 12 m/s ? I´ve tried to solve it in different ways (Newton´s Second Law, Kinematics equations, etc) but I always get stuck. I´ve arrived to the conclusion that the problem is missing key information about the angle that the ramp forms with respect to the horizontal. Help! Have you tried resolving into horizontal and vertical components. ? What actually stops the block ? Note1 this is an alternative method to that offered by Ghideon. Note2 It is always a good idea to post your working to help us help you. Edited August 2, 2020 by studiot Link to comment Share on other sites More sharing options...
swansont Posted August 2, 2020 Share Posted August 2, 2020 One common mis-step in problems like this is to try and substitute numbers in too early. You haven’t shown your work, as studiot has suggested, so nobody can be sure if that’s the case. The angle is not given because you can solve this without it (i.e. anywhere the angle might show up, it will cancel once you start simplifying the math, and with other methods it is absent altogether) The answer depends only on given quantities Link to comment Share on other sites More sharing options...
mathematic Posted August 2, 2020 Share Posted August 2, 2020 Without fiction you can ignore the horizontal motion. You need to start with the vertical component of velocity and use the usual formula for gravity acceleration. Link to comment Share on other sites More sharing options...
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