Shown in the figure below is a set of two masses on a track. The regions with the solid black line have no friction and the region with the tan pattern has a coefficient of Hk = 0.345. The small mass, m = 1.77 kg, is initially stationary at a height of y₁ = 0.65 meters. The large mass, M = 4.40 kg, is stationary on the flat surface. Y₁ 3 (1) V₂=? Blocks stick together M V₂=? (3 SENERE Determine all the following: The velocity of the small mass at moment 2: V₂ = The velocity of the stuck masses at moment 3: V3 = The distance required to come to a stop: d = The following sequence of events occur: • 1 → 2: The small mass slides down the ramp. • 2→ 3: The small and large mass collide inelastically and stick together. • 3→ 4: The small and large mass slide together into the frictional region and come to a stop. m m/s d=? m/s stopped friction

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= Shown in the figure below is a set of two masses on a track. The regions with the solid black line have no friction and the region with the tan pattern has a coefficient of μk 0.345. The small mass, m = 1.77 kg, is initially stationary at a height of y1 = 0.65 meters. The large mass, M = 4.40 kg, is stationary on the flat surface. Y₁ 3 ● V₂ = ? 2 ● Blocks stick together The following sequence of events occur: M V3 = ? (3) 12: The small mass slides down the ramp. 2 →3: The small and large mass collide inelastically and stick together. • 3 →4: The small and large mass slide together into the frictional region and come to a stop. Determine all the following: The velocity of the small mass at moment 2: V2 = The velocity of the stuck masses at moment 3: V3 = The distance required to come to a stop: d = m m/s d=? m/s stopped 4 M friction