How this shape called and why this is not a pyramid? Here link to Desmos3D. I wanted to find a volume of shape on 3D-vector $ v=(v_1, v_2, v_3) $ and thought it's a pyramid with volume $ \frac{1}{3} |v_1 v_2 v_3| $ but actually volume is equal to $ \frac{1}{4} |v_1 v_2 v_3| $ (made additional geometric constructions and subtracted volumes).
Edit:
How to find volume of this shape built on some vector $ \vec{v} = (v_1, v_2, v_3) $?
I firstly got $ \frac{1}{3} |v_1 v_2 v_3| $ via formula for pyramid's volume. But I can make additional constructions: parallelepiped with sides $ (v_1, v_2, v_3) $ and volume $|v_1 v_2 v_3|$, same pyramid but with different orientation (above vector $\vec{v}$) and volume $V$ and two truncated prisms with rigth triangles as bases and their volumes equal $\frac{1}{2} \cdot \frac{1}{2}|v_2 v_3| \cdot |v_1| = \frac{|v_1 v_2 v_3|}{4}$ for both. For truncated prisms volume can be found as $A_{base} \cdot h_{mean}$ where $h_{mean} = \frac{v_i + 0}{2}$ since one of the heights is n-th component of vector $\vec{v}$, which is $v_i$, and other height is $0$ because prism truncated from top to bottom (from one base to another).
So now I can solve equation for $V$:
$|v_1 v_2 v_3| = 2V + 2 \cdot \frac{|v_1 v_2 v_3|}{4} $
$\therefore V=\frac{|v_1 v_2 v_3|}{4} $
Picture of shape on one 3-dimensional vector
Picture of same shape but above this vector
This 4 bodies form parallelepiped with sides equal to components of vector $\vec{v}$ and with this vector as a diagonal.
