A block of mass, m = 10 kg, starts at rest on a frictionless curved hillside a height, h = 8 meters, above the flạt section of the path. The dark portion of the flat path is a frictionful surface with coefficient of friction uk = 0.3 and distance, d = 10 meters. 2000 N/m located at the end of the path. There is a spring with spring constant k = a) What is the speed of the block just before it hits the spring? Rectangular Snip b) What is the maximum the spring is compressed? c) When the block slides back up the curved ramp, what will be its max vertical height?

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Chapter1: Units, Trigonometry. And Vectors
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B
A block of mass, m =
10 kg, starts at rest on a frictionless curved hillside a
height, h = 8 meters, above the flat section of the path. The dark portion of the flat path
is a frictionful surface with coefficient of friction uk
= 0.3 and distance, d
10 meters.
There is a spring with spring constant k = 2000 N/m located at the end of the path.
a) What is the speed of the block just before it hits the spring? Rectangular Snip
b) What is the maximum the spring is compressed?
c) When the block slides back up the curved ramp, what will be its max vertical height?
d) Where will the mass come to rest? For full credit, indicate the location with an "x"
and give a precise description of where it is from the edge of the frictional surface.
h
www
P.
Transcribed Image Text:B A block of mass, m = 10 kg, starts at rest on a frictionless curved hillside a height, h = 8 meters, above the flat section of the path. The dark portion of the flat path is a frictionful surface with coefficient of friction uk = 0.3 and distance, d 10 meters. There is a spring with spring constant k = 2000 N/m located at the end of the path. a) What is the speed of the block just before it hits the spring? Rectangular Snip b) What is the maximum the spring is compressed? c) When the block slides back up the curved ramp, what will be its max vertical height? d) Where will the mass come to rest? For full credit, indicate the location with an "x" and give a precise description of where it is from the edge of the frictional surface. h www P.
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