Explanation Write the expression for the x coordinates of element with respect to centroidal axis. x = x ′ + x ¯ Here, the x coordinates of element with respect to the centroidal axis is x , the distance from the center of gravity is x ¯ and the axis parallel to the centroidal axis is x ′ . Write the expression for the y coordinates of element with respect to centroidal axis. y = y ′ + y ¯ Here, the y coordinates of element with respect to the centroidal axis is y , the distance from the center of gravity is y ¯ and the axis parallel to the centroidal axis is y ′ . Write the expression for the z coordinates of element with respect to centroidal axis. z = z ′ + z ¯ Here, the z coordinates of element with respect to the centroidal axis is z , the distance from the center of gravity is z ¯ and the axis parallel to the centroidal axis is z ′ . Write the expression for the mass product of inertia with respect to x and y axes. I x y = ∫ x y ⋅ d m ....... (I) Here, mass product of inertia in x and y axes is I x y and the element of mass is d m . Write the expression for the mass product of inertia with respect to z and y axes. I y z = ∫ y z ⋅ d m ....... (II) Here, mass product of inertia in z and y axes is I y z . Write the expression for the mass product of inertia with respect to z and x axes. I z x = ∫ z x ⋅ d m ....... (III) Here, mass product of inertia in z and x axes is I z x . Substitute x ′ + x ¯ for x and y ′ + y ¯ for y in Equation (I). I x y = ∫ ( x ′ + x ¯ ) ( y ′ + y ¯ ) ⋅ d m I x y = ∫ ( x ′ y ′ + y ′ x ¯ ) ( y ¯ ⋅ x ¯ + x ′ y ¯ ) ⋅ d m I x y = ∫ x ′ y ′ ⋅ d m + ∫ y ′ x ¯ ⋅ d m + ∫ y ¯ ⋅ x ¯ ⋅ d m + ∫ x ′ y ¯ ⋅ d m I x y = ∫ x ′ y ′ ⋅ d m + x ¯ ∫ y ′ ⋅ d m + y ¯ ⋅ x ¯ ∫ d m + y ¯ ∫ x ′ ⋅ d m ........ (IV) Write the expression for the product of the inertia with respect x ′ and y ′ . I x ′ y ′ = ∫ x ′ y ′ ⋅ d m Substitute ∫ x ′ y ′ ⋅ d m for I x ′ y ′ , y ′ for y and x ′ for x in Equation (IV). I x y = I x ′ y ′ + x ¯ ∫ ( 0 ) ⋅ d m + y ¯ ⋅ x ¯ ∫ d m + y ¯ ∫ ( 0 ) ⋅ d m = I x ′ y ′ + y ¯ ⋅ x ¯ ∫ d m = I x ′ y ′ + y ¯ ⋅ x ¯ ⋅ m Substitute z ′ + z ¯ for z and y ′ + y ¯ for y in Equation (II). I y z = ∫ ( y ′ + y ¯ ) ( z ′ + z ¯ ) ⋅ d m I y z = ∫ ( z ′ y ′ + y ′ z ¯ ) ( y ¯ ⋅ z ¯ + z ′ y ¯ ) ⋅ d m I y z = ∫ z ′ y ′ ⋅ d m + ∫ y ′ z ¯ ⋅ d m + ∫ y ¯ ⋅ z ¯ ⋅ d m + ∫ z ′ y ¯ ⋅ d m I y z = ∫ z ′ y ′ ⋅ d m + z ¯ ∫ y ′ ⋅ d m + y ¯ ⋅ z ¯ ∫ d m + y ¯ ∫ z ′ ⋅ d m

12th Edition

ISBN: 9781260265521

Author: BEER

Publisher: MCG

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Chapter B, Problem B.51P

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The product of mass moment of inertia Izx.

The product of mass moment of inertia Ixy.

The product of mass moment of inertia Iyz.

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Chapter B, Problem B.50P

Chapter B, Problem B.52P

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The product of mass moment of inertia I z x . The product of mass moment of inertia I x y . The product of mass moment of inertia I y z .

Solution Summary: The author explains the product of mass moment of inertia I_zx, and the expression for the coordinates of element with respect to the centroidal axis.

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The product of mass moment of inertia Izx.

The product of mass moment of inertia Ixy.

The product of mass moment of inertia Iyz.

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Chapter B Solutions

The product of mass moment of inertia I z x . The product of mass moment of inertia I x y . The product of mass moment of inertia I y z .

Solution Summary: The author explains the product of mass moment of inertia I_zx, and the expression for the coordinates of element with respect to the centroidal axis.

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The product of mass moment of inertia Izx. The product of mass moment of inertia Ixy. The product of mass moment of inertia Iyz.

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Chapter B Solutions

The product of mass moment of inertia Izx.

The product of mass moment of inertia Ixy.

The product of mass moment of inertia Iyz.