bruce mayer, pe licensed electrical & mechanical engineer bmayer@chabotcollege
DESCRIPTION
Engineering 25. Tutorial: Areal Moment of Inertia. Bruce Mayer, PE Licensed Electrical & Mechanical Engineer [email protected]. Parallogram I C. - PowerPoint PPT PresentationTRANSCRIPT
E ENGR36_Tutorial_Areal_Moment_of_Inertia.pptx1
Bruce Mayer, PE Engineering-36: Engineering Mechanics - Statics
Bruce Mayer, PELicensed Electrical & Mechanical Engineer
Engineering 25
Tutorial: Areal
Moment of Inertia
E ENGR36_Tutorial_Areal_Moment_of_Inertia.pptx2
Bruce Mayer, PE Engineering-36: Engineering Mechanics - Statics
Parallogram IC Determine the moment of
inertia for the parallelogram about the y’ axis, which passes through the centroid C of the area in terms of a, b, and θ.
E ENGR36_Tutorial_Areal_Moment_of_Inertia.pptx3
Bruce Mayer, PE Engineering-36: Engineering Mechanics - Statics
E ENGR36_Tutorial_Areal_Moment_of_Inertia.pptx4
Bruce Mayer, PE Engineering-36: Engineering Mechanics - Statics
E ENGR36_Tutorial_Areal_Moment_of_Inertia.pptx5
Bruce Mayer, PE Engineering-36: Engineering Mechanics - Statics
E ENGR36_Tutorial_Areal_Moment_of_Inertia.pptx6
Bruce Mayer, PE Engineering-36: Engineering Mechanics - Statics
E ENGR36_Tutorial_Areal_Moment_of_Inertia.pptx7
Bruce Mayer, PE Engineering-36: Engineering Mechanics - Statics
E ENGR36_Tutorial_Areal_Moment_of_Inertia.pptx8
Bruce Mayer, PE Engineering-36: Engineering Mechanics - Statics
MuPAD WorkBook
E ENGR36_Tutorial_Areal_Moment_of_Inertia.pptx9
Bruce Mayer, PE Engineering-36: Engineering Mechanics - Statics
MATLAB Results>> Q = 53Q = 53>> a = 7a = 7>> b = 11b = 11>> e = a*cosd(Q)e = 4.2127>> h = a*sind(Q)h = 5.5904>> ICy = b*h*(b^2+e^2)/12ICy = 711.0192