Determine the x and y component of the center of gravity of all the components. If the heights of the components are given as z1 = 1.90mm, z2 = 0.500mm, and z3 = 0.150mm, determine the z component of the center of gravity of all the components.

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Determine the and y component of the center of gravity of all the components. If the heights of the components are given as z1 = 1.90mm, z2 = 0.500mm, and z3 = 0.150mm, determine the z component of the center of gravity of all the components.

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The layout shown is a representation of a machine shop. Components
1 and 2 have masses of m₁ = 300 kg and m2 - 225 kg,
respectively. Component 3 must be treated as a distributed load, which
is w = 175 kg/m², determined by the area of contact between the
component and the shop floor. The dimensions shown have been
measured to be a = 0.750 m,b= 2.10 m,c = 1.20 m,
d = 0.750 m,e = 4.00 m, and f = 1.50 m. These dimensions
represent the x and y components of the locations of the centers of
gravity for the respective components. Component 3 has x, y cross-
sectional dimensions of x3 = 1.20 m and Y3
= 0.250 m. Assume
the components experience uniform weight distribution in all principle
directions. The dimensions a through f locate the centroid of the
respective component from the y - z plane and x - z plane.
(Figure 1)
Figure
1 of 1
Transcribed Image Text:- The layout shown is a representation of a machine shop. Components 1 and 2 have masses of m₁ = 300 kg and m2 - 225 kg, respectively. Component 3 must be treated as a distributed load, which is w = 175 kg/m², determined by the area of contact between the component and the shop floor. The dimensions shown have been measured to be a = 0.750 m,b= 2.10 m,c = 1.20 m, d = 0.750 m,e = 4.00 m, and f = 1.50 m. These dimensions represent the x and y components of the locations of the centers of gravity for the respective components. Component 3 has x, y cross- sectional dimensions of x3 = 1.20 m and Y3 = 0.250 m. Assume the components experience uniform weight distribution in all principle directions. The dimensions a through f locate the centroid of the respective component from the y - z plane and x - z plane. (Figure 1) Figure 1 of 1
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