The small slider A moves with negligible friction down the tapered block, which moves to the right with constant speed v = 1.6 m/s. Use the principle of work-energy to determine the magnitude VA of the absolute velocity of the slider as it passes point C if it is released at point B with no velocity relative to the block. The distance / = 1.8 m, and the angle 0 = 26°. Apply the equation, both as an observer fixed to the block and as an observer fixed to the ground, and reconcile the two relations. B Answer: VA = i IM A m/s

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The small slider A moves with negligible friction down the tapered block, which moves to the right with constant speed v = 1.6 m/s. Use
the principle of work-energy to determine the magnitude VA of the absolute velocity of the slider as it passes point C if it is released at
point B with no velocity relative to the block. The distance / = 1.8 m, and the angle 0 = 26°. Apply the equation, both as an observer fixed
to the block and as an observer fixed to the ground, and reconcile the two relations.
B
Answer: VA =
IM
i
A
m/s
Transcribed Image Text:The small slider A moves with negligible friction down the tapered block, which moves to the right with constant speed v = 1.6 m/s. Use the principle of work-energy to determine the magnitude VA of the absolute velocity of the slider as it passes point C if it is released at point B with no velocity relative to the block. The distance / = 1.8 m, and the angle 0 = 26°. Apply the equation, both as an observer fixed to the block and as an observer fixed to the ground, and reconcile the two relations. B Answer: VA = IM i A m/s
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