Definition
Function of
If the function to be revolved is a function of , the following integral represents the volume of the solid of revolution: : where is the distance between the function and the axis of rotation. This works only if the axis of rotation is horizontal (example: or some other constant).Function of
If the function to be revolved is a function of , the following integral will obtain the volume of the solid of revolution: : where is the distance between the function and the axis of rotation. This works only if the axis of rotation is vertical (example: or some other constant).Washer method
To obtain a hollow solid of revolution (the “washer method”), the procedure would be to take the volume of the inner solid of revolution and subtract it from the volume of the outer solid of revolution. This can be calculated in a single integral similar to the following: : where is the function that is farthest from the axis of rotation and is the function that is closest to the axis of rotation. For example, the next figure shows the rotation along the -axis of the red "leaf" enclosed between the square-root and quadratic curves: The volume of this solid is: : One should take caution not to evaluate the square of the difference of the two functions, but to evaluate the difference of the squares of the two functions. : (This formula only works for revolutions about the -axis.) To rotate about any horizontal axis, simply subtract from that axis from each formula. If is the value of a horizontal axis, then the volume equals : For example, to rotate the region between and along the axis , one would integrate as follows: : The bounds of integration are the zeros of the first equation minus the second. Note that when integrating along an axis other than the , the graph of the function that is farthest from the axis of rotation may not be that obvious. In the previous example, even though the graph of is, with respect to the x-axis, further up than the graph of , with respect to the axis of rotation the function is the inner function: its graph is closer to or the equation of the axis of rotation in the example. The same idea can be applied to both the -axis and any other vertical axis. One simply must solve each equation for before one inserts them into the integration formula.See also
* Solid of revolution *References
* * * Frank Ayres, Elliott Mendelson. '' Schaum's Outlines: Calculus''. McGraw-Hill Professional 2008, . pp. 244–248 (. Retrieved July 12, 2013.) {{Calculus topics Integral calculus Volume