4-16. For the arrangement shown, x represents the absolute displacement of the mass m, and y is the absolute displacement of the end A of the spring k. Point A is moved according to the relation y = Y sin wrt. (a) Construct the free-body diagram for m. (b) Write the differential equation of motion for m. (c) Obtain bont the solution for the steady-state motion of m. (d) Determine the relation for the impressed force at A. (e) Obtain the expression for the force transmitted to the motion. %3D support at B. y = Y sin wet k wwwA B Problem 4-16

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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4-16. For the arrangement shown, x represents the absolute displacement of the
mass m, and y is the absolute displacement of the end A of the spring k. Point A
is moved according to the relation y = Y sin wt. (a) Construct the free-body
diagram for m. (b) Write the differential equation of motion for m. (c) Obtain
bont the solution for the steady-state motion of m. (d) Determine the relation for the
impressed force at A. (e) Obtain the expression for the force transmitted to the
motion.
%3D
support at B.
y = Y sin wet
k
B
Problem 4-16
Transcribed Image Text:4-16. For the arrangement shown, x represents the absolute displacement of the mass m, and y is the absolute displacement of the end A of the spring k. Point A is moved according to the relation y = Y sin wt. (a) Construct the free-body diagram for m. (b) Write the differential equation of motion for m. (c) Obtain bont the solution for the steady-state motion of m. (d) Determine the relation for the impressed force at A. (e) Obtain the expression for the force transmitted to the motion. %3D support at B. y = Y sin wet k B Problem 4-16
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