Energy-Spring-Friction-Uphill Snow in the ingure below is a block and track system. All locations indicated by solid bla

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Energy Spring Friction Uphill Snow In The Ingure Below Is A Block And Track System All Locations Indicated By Solid Bla 1 (108.47 KiB) Viewed 20 times

Energy-Spring-Friction-Uphill Snow in the ingure below is a block and track system. All locations indicated by solid black lines are frictionless. The region indicated by the tan hash is a patch of friction with coefficient k = 0.130 whose length is d = 1.35 meters. A small block of mass m = 0.54 kg is initially at rest and is compressing a spring. The spring has a spring constant of k = 22.1 N/m and an initial compression of x₁ = 0.37 meters. wwwwww m V₂ = ? friction X1 Calculate all the following: The velocity of the mass after it leaves the spring, V₂ = The velocity of the mass after the frictional area, v3 = The maximum height reached by the mass, y4= d V₂ = ? m/s m/s meters 4 Y4=?