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categoryفيزياء
schoolبكالوريوس
event_available2026-07-14
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(11%) Problem 5: A cube of mass m = 0.49 kg is set against a spring with a spring
constant of k = 617 N/m which has been compressed by a distance of 0.1 m. Some
distance in front of it, along a frictionless surface, is another spring with a spring constant
of k₂ = 295 N/m.
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33% Part (a) How far d₂, in meters, will the second spring compress when the cube runs into it?
d₂ =
atan
sin()
cotan() asin() acos()
acotan() sinh()
cos()
tan()
π ( 7 8 9
145 6
HOME
*
1 2 3
cosh()
tanh() cotanh()
+
-
0
END
Degrees Radians
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A33% Part (b) How fast v, in meters per second, will the cube be moving when it strikes the second spring?
A33% Part (c) Now assume friction is present on the surface in between the ends of the springs at their equilibrium lengths, and the coefficient
of kinetic friction is μx = 0.5. If the distance between the springs is x = 1 m, how far d₂, in meters, will the second spring now compress?
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