That would be some kind of prism. To answer the question more specifically, I would need to know the shape of the bases.
11 nCr 5 = 462
If it is the line joining the midpoints of the parallel sides it most certainly is not.
Yes. Split it down the line joining the midpoints of the sides of length 6 ft to create 2 rhombuses both with sides of length 3 ft.
There are letters in the alphabet with both parallel and perpendicular lines. In alphabetical order, they are E, F, and H. If the joining point can be considered perpendicular and parallel, then B, D, P, and R also match the criterion.
Only if it was a rectangle, but then we wouldn't usually call it a trapezium. A trapezium should have a long and a short side parallel to each other with two other sides joining the parallel ones.
Prism!
They are prisms. The bases may be any polygons with three or more sides.
It has two congruent hexagonal faces that are parallel to one another and six rectangular faces joining these together. A hexagonal prism has 8 faces, 12 vertices and 18 edges.It has two congruent hexagonal faces that are parallel to one another and six rectangular faces joining these together. A hexagonal prism has 8 faces, 12 vertices and 18 edges.It has two congruent hexagonal faces that are parallel to one another and six rectangular faces joining these together. A hexagonal prism has 8 faces, 12 vertices and 18 edges.It has two congruent hexagonal faces that are parallel to one another and six rectangular faces joining these together. A hexagonal prism has 8 faces, 12 vertices and 18 edges.
They are 3-dimensional objects comprising two congruent and parallel triangular faces and three rectangular faces joining the sides of the triangles.
a prism is constructed from two parallel and congruent regular polygons. with vertices joined by edges of length equal to that of the polygons a pyramid has a square base and has 4 triangle joining at a vertex above the centre of the square base. the triangles are isosceles triangles (and can even be equilateral)
congruent
It is the line joining the midpoints of two sides of a polygon - usually a triangle. This line will be parallel to the third side. The three median-median lines will divide any triangle into 4 congruent triangles that are similar to the original.It is the line joining the midpoints of two sides of a polygon - usually a triangle. This line will be parallel to the third side. The three median-median lines will divide any triangle into 4 congruent triangles that are similar to the original.It is the line joining the midpoints of two sides of a polygon - usually a triangle. This line will be parallel to the third side. The three median-median lines will divide any triangle into 4 congruent triangles that are similar to the original.It is the line joining the midpoints of two sides of a polygon - usually a triangle. This line will be parallel to the third side. The three median-median lines will divide any triangle into 4 congruent triangles that are similar to the original.
A prism is a generic term. It describes a solid shape bounded by two congruent polygons (with n sides each), and n rectangles joining them together. The prism is names after the shape of the two polygons. A prism with an n-sided polygon as base has 2n vertices.
My answer to that question is eight sides. * * * * * Actually, there is no single answer because a prism is a generic term which is used to describe a polyhedron with two congruent and parallel bases and a number of rectangular faces joining them. If the base is a polygon with n sides (n ≥ 3), then the corresponding prism has n+2 faces. So a prism can have 5 or more faces.
10c5
The triangle midpoint theorem states that the line segment is parallel to the third side and is congruent to one half of the third side.
In its most generalised form it comprises two connected, congruent and parallel faces: these faces are called the bases. In a right prism, the bases are at right angles to the length of the prism. In a polyhedral prism, all faces are polygons and, in such a case, the faces joining the bases are quadrilaterals. In the very special case of a right polyhedral prism, the bases are polygons and the lateral faces are rectangles.