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MOMENT OF INERTIA BY GP CAPT NC CHATTOPADHYAY WHAT IS MOMENT OF INERTIA? IT IS THE MOMENT REQUIRED BY A SOLID BODY TO OVERCOME IT’S RESISTANCE TO ROTATION IT IS RESISTANCE OF BENDING MOMENT OF A BEAM IT IS THE SECOND MOMENT OF MASS (mr2) OR SECOND MOMENT OF AREA (Ar2) IT’S UNIT IS m4 OR kgm2 PERPENDICULAR AXIS THEOREM The moment of inertia of a plane area about an axis normal to the plane is equal to the sum of the moments of inertia about any two mutually perpendicular axes lying in the plane and passing through the given axis. Moment of Inertia: Iz = Ix+Iy PARALLEL (TRANSFER)AXIS THEOREM THE MOMENT OF AREA OF AN OBJECT ABOUT ANY AXIS PARALLEL TO THE CENTROIDAL AXIS IS THE SUM OF MI ABOUT IT’S CENTRODAL AXIS AND THE PRODUCT OF AREA WITH THE SQUARE OF DISTANCE OF CG FROM THE REF AXIS IXX= IG+Ad2 A is the cross-sectional area. : is the perpendicuar distance between the centroidal axis and the parallel axis. Moment of Inertia - Parallel Axis Theorem Parallel axis theorem: Consider the moment of inertia Ix of an area A with respect to an axis AA’. Denote by y the distance from an element of area dA to AA’. I x y dA 2 Moment of Inertia - Parallel Axis Theorem Consider an axis BB’ parallel to AA’ through the centroid C of the area, known as the centroidal axis. The equation of the moment inertia becomes 2 I x y dA y d dA 2 y dA 2 ydA d 2 2 dA Moment of Inertia - Parallel Axis Theorem The first integral is the moment of inertia about the centroid. 2 I x y dA The second component is the first moment area about the centroid yA ydA y 0 ydA 0 Moment of Inertia - Parallel Axis Theorem Modify the equation obtained with the parallel axis theorem. 2 2 I x y dA 2 y dA d dA Ix d A 2 Example – Moment of Inertia Compute the moment of inertia in the x about the AA` plane. AA` Example – Moment of Inertia Compute the moment of inertia in the x about the AA` plane. Ix h b y 2 dA y 2 dxdy Area 0 0 h y bh3 b 3 3 0 3 AA` Example – Moment of Inertia From earlier lecture, the moment of inertia about the centroid Ix h/2 y dA 2 2 y bdy h/2 Area h/2 3 y bh b 3 h/2 12 3 Example – Moment of Inertia Using the parallel axis theorem Ix Ix d A 2 2 bh h 4 3 bh bh 12 2 12 3 bh AA` 3 3 Parallel Axis - Why? Recall that the method of finding centroids of composite bodies? Follow a Table technique How would you be able to find the moment of inertia of the body. Use a similar technique, table method, to find the moment of inertia of the body. Parallel Axis - Why? Use a similar technique, table method, to find the moment of inertia of the body. Bodies Ai yi yA y A i i i y i*Ai Ii di2Ai di=y i-ybar Ix Ix d A 2 i I xi yi y 2 Ai Moment of Inertia Use a set of standard tables: Example - Moment of Inertia Find the moment of inertia of the body, Ix and the radius of gyration, kx (rx) I THINK…. I CAN THINK…. Example - Moment of Inertia Set up the reference axis at AB and find the centroid Bodies Ai yi y i*Ai 1 2 18 18 1 5 18 90 36 yi Ai Ii di=y i-ybar 108 3 108 in y 3.0 in. 2 Ai 36 in di2Ai Example - Moment of Inertia From the table to find the moment of inertia A y y *A I Bodies 1 2 i i 18 18 1 5 36 ybar I i di=y i-ybar di2Ai 18 90 6 54 -2 2 72 72 108 60 i i 3 in. 204 in4 I x I xi yi y 2 Ai 60 in 4 144 in 4 204 in 4 144 Example - Moment of Inertia Compute the radius of gyration, rx. 4 Ix 204 in rx A 36 in 2 2.38 in. Example - Moment of Inertia Find the moment of inertia of the body, Ix and the radius of gyration, kx (rx) Example - Moment of Inertia The components of the two bodies and subtract the center area from the total area. Bodies Ai yi 1 2 21600 -9600 90 90 12000 ybar I 90 mm 46800000 mm4 y i*Ai Ii 1944000 58320000 -864000 -11520000 1080000 46800000 di=y i-ybar di2Ai 0 0 0 0 0 Example - Moment of Inertia Compute the radius of gyration, rx. Ix 46800000 mm rx A 12000 mm2 62.45 mm 4 PROBLEM…. FIND THE MI OF A CIRCULAR LAMINA OF RADIUS “r“?