0
where A0 is the area of the base and h the height from the base to the apex. This applies for each of the four choices of the base, so the distances from the apexes to the opposite faces are inversely proportional to the areas of these faces.
For a tetrahedron with vertices a = (a1, a2, a3), b = (b1, b2, b3), c = (c1, c2, c3), and d = (d1, d2, d3), the volume is (1/6)·|det(a−b, b−c, c−d)|, or any other combination of pairs of vertices that form a simply connected graph. This can be rewritten using a dot product and a cross product, yielding
If the origin of the coordinate system is chosen to coincide with vertex d, then d = 0, so
where a, b, and c represent three edges that meet at one vertex, and is a scalar triple product. Comparing this formula with that used to compute the volume of a parallelepiped, we conclude that the volume of a tetrahedron is equal to 1/6 of the volume of any parallelepiped that shares three converging edges with it.
The triple scalar can be represented by the following determinants: or where is expressed as a row or column vector etc.Hence where etc.which gives,
where are the plane angles occurring in vertex d. The angle is the angle between the two edges connecting the vertex d to the vertices b and c. The angle does so for the vertices a and c, while is defined by the position of the vertices a and b.
Given the distances between the vertices of a tetrahedron the volume can be computed using the Cayley-Menger determinant:
where the subscripts represent the vertices and is the pairwise distance between them-i.e., the length of the edge connecting the two vertices. A negative value of the determinant means that a tetrahedron cannot be constructed with the given distances. This formula, sometimes called Tartaglia's formula, is essentially due to the painter Piero della Francesca in the 15th century, as a three dimensional analogue of the 1st century Heron's formula for the area of a triangle
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Find the volume of a regular tetrahedron in which each edge is 8 in long?
formula for finding the volume of tetrahedrone is=sqrt(2)*side*3/4 if side is 3 then the volume is 9(sqrt(2))/4
Mathematical formula for volume of truncated tetrahedron?
Trying to figure this out too...
What is the formula for finding the volume of a liquid?
There is no formula for this. You have to measure the volume.
Formula for the volume of hollow dish?
formula for finding the volume of hollow dish
How is finding the volume of a pyramid like finding the volume of a cone?
Because the formula is the same: volume = 1/3base areaheight
Find the volume of a regular tetrahedron in which each edge is 8 in long?
formula for finding the volume of tetrahedrone is=sqrt(2)*side*3/4 if side is 3 then the volume is 9(sqrt(2))/4
Mathematical formula for volume of truncated tetrahedron?
Trying to figure this out too...
What is the formula for finding the volume of a liquid?
There is no formula for this. You have to measure the volume.
Formula for the volume of hollow dish?
formula for finding the volume of hollow dish
How is finding the volume of a pyramid like finding the volume of a cone?
Because the formula is the same: volume = 1/3base areaheight
What is the formula in finding the volume of rectangular prism?
The volume of a rectangular prism can be found by the formula: volume=length*width*height
What is the formula to find the volume of a tetrahedron?
If the area of the base of the tetrahedron is A square units and the vertical height is h units, then the volume is V = 1/3*A*h cubic units. If the tetrahedron is regular, with sides of length of length s units, then V = sqrt(2)/12*s3 cubic units.
What is the formula for finding the volume for a rectangle?
A rectangle has no volume, it is a 2 dimensional object.
What is the formula for finding mass given volume?
There is none, given volume alone.
Finding the volume of eccentric reducer?
formula to find volume of an eccentric reducer
What is the formula in finding the density?
Mass divided by volume
What is the formula to finding density of water?
mass/volume
