Problem 9: m= 2.00 kg 4.00 m 53.1° A 2.00 kg package is released on a 53.1° incline, 4.00 m from a long spring with force constant 120 N/m that is attached at the bottom of the incline (see figure). The coefficients of friction between the package and the incline are µs = 0.40 and µ = 0.20. The mass of the spring is negligible. (a) What is the speed of the package just before it reaches the spring?
Problem 9: m= 2.00 kg 4.00 m 53.1° A 2.00 kg package is released on a 53.1° incline, 4.00 m from a long spring with force constant 120 N/m that is attached at the bottom of the incline (see figure). The coefficients of friction between the package and the incline are µs = 0.40 and µ = 0.20. The mass of the spring is negligible. (a) What is the speed of the package just before it reaches the spring?
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Transcribed Image Text:Problem 9:
m = 2.00 kg
4.00 m
53.1°
A 2.00 kg package is released on a 53.1° incline, 4.00 m from a long spring with force constant
120 N/m that is attached at the bottom of the incline (see figure). The coefficients of friction between the
package and the incline are µs = 0.40 and μ = 0.20. The mass of the spring is negligible.
(a) What is the speed of the package just before it reaches the spring?
(b) What is the maximum compression of the spring?
(c) The package rebounds back up the incline. How close does it get to its initial position?
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Step 1: Define the given data :
VIEWStep 2: Kinetic energy of spring :
VIEWSolution
VIEWStep 3: Part (a)
VIEWStep 4: Part (b)
VIEWStep 5: Kinetic energy and potential energy :
VIEWStep 6: Energy conservation law :
VIEWStep 7: Quadratic formula :
VIEWStep 8: Part (c)
VIEWStep 9: Work done by friction :
VIEWStep 10: Distance between initial and final position :
VIEW
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