Difference between revisions of "Using Integration to calculate volume"

This time we will start to learn how to use integration to calculate the volume.

Now we will start with a function:

${\displaystyle f(x)={\sqrt {x}}}$

We will start to calculate the volume of the function when the function rotates 360 degrees on the x-axis.

It will never leave the x-axis, and then it will form a 3-dimensional volume. We will call this solid of revolution because we obtain it by revolving a region about a line.

${\displaystyle f(x)={\sqrt {x}}}$ ${\displaystyle \int _{0}^{1}A(x)dx}$

so the radius of a circle will be r and ${\displaystyle r={\sqrt {x}}}$

and we can think of it as the volume is made of many disks and it will form this volume.

So the area of the disk will be like this ${\displaystyle A=\pi r^{2}}$

${\displaystyle r={\sqrt {x}}}$

${\displaystyle r^{2}=x}$

so

${\displaystyle A=\pi {({\sqrt {x}})}^{2}}$

${\displaystyle A(x)=\pi x}$

so what we will get this

${\displaystyle \int _{0}^{1}\pi xdx}$

so ${\displaystyle \pi }$ is a constant so we can pull it out

${\displaystyle \pi \int _{0}^{1}xdx}$