Shown in the figure 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 0.110 whose length is d = 2.30 meters. A small block of mass m= 0.58 kg is initially sliding with a speed of v₂ = 2.568 meters/second on the raised surface with a height of y₁ = 0.286 meters. The spring has a spring constant of k= 62.1 N/m. m V₂ * V₂=? (2 friction d v₂=? Calculate all the following: The velocity of the mass at the bottom of the hill, v₂ = [ The velocity of the mass after the frictional area, v3= The maximum compression of the spring, x4= X₂=? 4 meters m/s m/s

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Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Shown in the figure 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 = 0.110 whose length is d = 2.30 meters. A small block of mass m = 0.58 kg is
initially sliding with a speed of v₁ = 2.568 meters/second on the raised surface with a height of y₁ = 0.286 meters.
The spring has a spring constant of k = 62.1 N/m.
m
V₁
Y₁
V₂=?
2
V3=?
friction
▪BENARKANANKHAGE
d
Calculate all the following:
The velocity of the mass at the bottom of the hill, v₂ =
The velocity of the mass after the frictional area, V3 =
The maximum compression of the spring, x4 =
X=?
(4)
meters
m/s
m/s
Transcribed Image Text:Shown in the figure 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 = 0.110 whose length is d = 2.30 meters. A small block of mass m = 0.58 kg is initially sliding with a speed of v₁ = 2.568 meters/second on the raised surface with a height of y₁ = 0.286 meters. The spring has a spring constant of k = 62.1 N/m. m V₁ Y₁ V₂=? 2 V3=? friction ▪BENARKANANKHAGE d Calculate all the following: The velocity of the mass at the bottom of the hill, v₂ = The velocity of the mass after the frictional area, V3 = The maximum compression of the spring, x4 = X=? (4) meters m/s m/s
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