The 129-kg crate which is fixedly attached to a spring, k = 508 N/m, is pulled from rest by force P = 1,614 N. If the initial length of a spring is 3.9m and the coefficient of kinetic friction between the crate and the inclined surface is 0.35, determine the final position of the crate, x, in meters if at that moment it will attain equilibrium. Assume that the spring is initially unstretched. Used 3 = 17 °. Neglect the dimensions of the crate. X P 14 boccod B

Structural Analysis
6th Edition
ISBN:9781337630931
Author:KASSIMALI, Aslam.
Publisher:KASSIMALI, Aslam.
Chapter2: Loads On Structures
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The 129-kg crate which is fixedly
attached to a spring, k = 508 N/m, is
pulled from rest by force P = 1,614
N. If the initial length of a spring is
3.9m and the coefficient of kinetic
friction between the crate and the
inclined surface is 0.35, determine
the final position of the crate, x, in
meters if at that moment it will attain
equilibrium. Assume that the spring
is initially unstretched. Used 3 = 17
. Neglect the dimensions of the
crate.
O
.P
H
B
Transcribed Image Text:The 129-kg crate which is fixedly attached to a spring, k = 508 N/m, is pulled from rest by force P = 1,614 N. If the initial length of a spring is 3.9m and the coefficient of kinetic friction between the crate and the inclined surface is 0.35, determine the final position of the crate, x, in meters if at that moment it will attain equilibrium. Assume that the spring is initially unstretched. Used 3 = 17 . Neglect the dimensions of the crate. O .P H B
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