Every prism has vertices. They have an even number of vertices, with a minimum of 6 and no maximum.
A cubic graph must have an even number of vertices. Then, a Hamilton cycle (visiting all vertices) must have an even number of vertices and also an even number of edges. Alternatively color this edges red and blue, and the remaining edges green.
i think so Yes, categorically.
Yes, but not a polygon (or polyhedron).Consider a quadrilateral with one diagonal. The end points of the diagonal are at odd vertices while the other two are even.
If it is a polygon with an even number (>2) of vertices, join any two pairs of opposite vertices. These lines will meet in the centre. If it is a polygon with an odd number (>1) of vertices, join any two vertices to the midpoints of the opposite sides. These lines will meet in the centre.
Every prism has vertices. They have an even number of vertices, with a minimum of 6 and no maximum.
Opposite vertices are two vertices of any polygon with an even number of sides that have the same number of sides between them.
A star is not a specific shape: it is a generic word for a shape which has an even number of vertices. The interior angles at alternate vertices are usually reflex angles. A star can have six or more vertices.
In order for a network to be transversable, it either needs to have all of the vertices even, or just 2 odd vertices
A cubic graph must have an even number of vertices. Then, a Hamilton cycle (visiting all vertices) must have an even number of vertices and also an even number of edges. Alternatively color this edges red and blue, and the remaining edges green.
i think so Yes, categorically.
Yes, but not a polygon (or polyhedron).Consider a quadrilateral with one diagonal. The end points of the diagonal are at odd vertices while the other two are even.
If it is a polygon with an even number (>2) of vertices, join any two pairs of opposite vertices. These lines will meet in the centre. If it is a polygon with an odd number (>1) of vertices, join any two vertices to the midpoints of the opposite sides. These lines will meet in the centre.
16 vertices.16 vertices.16 vertices.16 vertices.
No. and it is not vertices's! vertices will do.
Did you mean vertices? A rectangular prism would have 8 vertices.
No. A sphere has no vertices. An octohedron has six vertices.