The volume of a pyramid can be expressed as where is the base area of the pyramid and is the height of the pyramid. Refer to the image below.
What is the volume of a pyramid with a height of 10 and a square base with sides of length 12?
Since the area of the base is , the volume of the pyramid is
In a playground, some children used of sand to build a pyramid. If the side length of the square base is what is the height of the pyramid?
Since the area of the base is , the volume of the pyramid in is
Thus, the height of the pyramid is
In the above diagram, if the base of the pyramid is a square, what is the volume of the pyramid?
In order to get the volume of the pyramid, we need to find the side length of the base by cutting the pyramid into half.
The above diagram is the cross section of the pyramid cut through and Since the side length of the base is equal to which is twice the length we use the Pythagorean theorem as follows to calculate
Thus, the side length of the base is Then the volume of the pyramid is
Find the volume of the blue part in the above pyramid.
The volume of the blue part is
Since the height ratio between the blue part and the small pyramid on top is the side length of the base is Let be the volume of the blue part of the whole pyramid, then
Derive the formula for the volume of a pyramid using calculus.
First, we want to find , where is the function of the areas of the cross section of the pyramid.
Let be the height of the solid, and a constant such that . Also, let and be variables which would be used later to define .
Since , we can set , where is another constant.
From the image above, it can be seen that both triangles are similar. So, finding the equation of with respect to variable , we have Therefore,
Now, here comes the integrating part.
The volume of the object is Recall that , which gives
Since the volume is based on the area of the cross section, the point at the top of the pyramid can be anywhere and this formula would still work.