What are Platonic Solids?
In three-dimensional space, a Platonic solid is a regular, convex polyhedron. It is constructed by congruent (identical in shape and size), regular (all angles equal and all sides equal), polygonal faces with the same number of faces meeting at each vertex. Five solids who meet this criteria are Tetrahedron {3,3} , Cube {4,3} , Octahedron {3,4} , Dodecahedron {5,3} , Icosahedron {3,5} ; where in {p, q}, p represents the number of edges in a face and q represents the number of edges meeting at a vertex; {p, q} is the Schläfli symbol.
How to Calculate Total Surface Area of Tetrahedron given Surface to Volume Ratio?
Total Surface Area of Tetrahedron given Surface to Volume Ratio calculator uses Total Surface Area of Tetrahedron = sqrt(3)*((6*sqrt(6))/Surface to Volume Ratio of Tetrahedron)^2 to calculate the Total Surface Area of Tetrahedron, The Total Surface Area of Tetrahedron given Surface to Volume Ratio formula is defined as the total quantity of plane enclosed on the entire surface of the Tetrahedron, and calculated using the surface to volume ratio of the Tetrahedron. Total Surface Area of Tetrahedron is denoted by TSA symbol.
How to calculate Total Surface Area of Tetrahedron given Surface to Volume Ratio using this online calculator? To use this online calculator for Total Surface Area of Tetrahedron given Surface to Volume Ratio, enter Surface to Volume Ratio of Tetrahedron (RA/V) and hit the calculate button. Here is how the Total Surface Area of Tetrahedron given Surface to Volume Ratio calculation can be explained with given input values -> 166.2769 = sqrt(3)*((6*sqrt(6))/1.5)^2.