TOCForceMomentCoupleSystem of ForcesStatic EquilibriumStructure Analysis 2D Plane Body Center of Gravity, Center of Mass, & CentroidFirst Moment of 3D Body Draft for Information Only
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Centroid of 3D Body
Centroid of 3D BodyThe centroid of 3D Body is determined by the first moment of a three dimensional body with the method of the first moment of volume. 
Centroids of VolumesVolume by IntegrationAlthough triple integration is usually required to determine the volume of 3D body. However volume of 3D body can also be determined by performing a double integration or a single integration. Volume by Double IntegrationIf the inner integration of the unit elemental volume can be expressed as a strip of elemental volume in one dimension. 
For example, the signed volume of the 3D ellipic cylinder is bounded by surfaces in rectangular form , Imply 
An elemental volume ΔV in rectangular form can be defined as Δx times Δy times Δz. Imply 
An unit elemental volume can be expressed as 
Therefore the unit elemental volume can be expressed as a strip of elemental volume of the solid cylinder U in the planar region R of cartesian coordinates yz. Imply 
All unit elemental volumes can be bounded by curves in the plane yz. And the curves is 
In general, the volume of a region can be determined by double integration through sweeping the signed elemental volume starting from along either rectangular coordinate axes. Imply Starting from horizontal sweeping along y axis 
Consider an unit elemental volume ΔVyz along y axis horizontally. Imply 
Since the bounding curves are joined at plane zx, The bounds of the bounding curves are 
Therefore the volume of the solid cone U can be determined by 
Therefore the volume of the solid cone U is 
Volume by Single IntegrationIf the inner integration of the unit elemental volume can be expressed as a sheet of elemental volume in two dimensions. 
For example, the signed volume of the 3D ellipic cylinder is bounded by surfaces in rectangular form , Imply
An elemental volume ΔV in rectangular form can be defined as Δx times Δy times Δz. Imply
An unit elemental volume can be expressed as 
Therefore the unit elemental volume can also be expressed as a sheet of elemental volume of the solid cylinder U along the cartesian coordinate axis x. Imply 
Sweeping the unit elemental volume ΔVx along x axis horizontally Since all unit elemental volumes of ΔVx are bounded along x axis, imply 
Therefore the volume of the solid cone U is 
©sideway ID: 120600013 Last Updated: 7/3/2012 Revision: 0 Ref:  References
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