. "The moment of inertia (symbol I, SI unit kg\u00B7m2) of a rotating object is a measure of what angular acceleration will be produced by a given torque, and can therefore be thought of as the rotational equivalent of mass. It is defined as For a point mass, it is equal to the distance from the centre of rotation squared times the mass of the object, or The moment of inertia is also equal to angular momentum divided by angular velocity, or File:Rotating tube.png This mechanics-related article contains minimal information concerning its topic. You can help the Physics Wiki by adding to it."@en . "The quantity of moment of inertia is a very important subject in engineering when calculating the deflection of beams and analyzing distributed forces. In simple words, the moment of inertia is the resistance of a body to rotate, move, or deflect. The greater the moment of inertia, the greater is the resistance. This quantity can be either described in terms of area or in terms of mass. In either case, the rotation of a body occurs about the x-axis or the y-axis. In some instance the rotation can also occur about some angle between the x- and y-axis. The moment of inertia about the x-axis is mathematically expressed as Ix = \u222By^2dA The moment of inertia about the y-axis is expressed as Iy = \u222Bx^2dA When the body rotates about the x- and y-axis at the same time, that is 45\u00BA from the x-axis, this quantity is expressed as the product of inertia Ixy = \u222BxydA If the object rotates about the origin in a circular motion, the quantity is expressed as the polar moment of inertia. Io = \u222Br^2dA The distances of x,y, and r are taken from the applied force to the rotational axis. This is when the concept of centroids has to be considered. Instead of computing each individual point of the area, the integral is the sum of all points within a boundary."@en . . "Moment of Inertia"@en . . "Moment of inertia"@en . "The quantity of moment of inertia is a very important subject in engineering when calculating the deflection of beams and analyzing distributed forces. In simple words, the moment of inertia is the resistance of a body to rotate, move, or deflect. The greater the moment of inertia, the greater is the resistance. This quantity can be either described in terms of area or in terms of mass. In either case, the rotation of a body occurs about the x-axis or the y-axis. In some instance the rotation can also occur about some angle between the x- and y-axis."@en . "The moment of inertia (symbol I, SI unit kg\u00B7m2) of a rotating object is a measure of what angular acceleration will be produced by a given torque, and can therefore be thought of as the rotational equivalent of mass. It is defined as For a point mass, it is equal to the distance from the centre of rotation squared times the mass of the object, or The moment of inertia is also equal to angular momentum divided by angular velocity, or File:Rotating tube.png This mechanics-related article contains minimal information concerning its topic. You can help the Physics Wiki by adding to it."@en .