2 and 1 half
60
the number one myth would be Greece myths.
Written as a Roman numeral, the number 6 would be expressed as VI. The letter V indicates the number 5 and the letter I indicates the number 1. When the letter I is written after the letter V in Roman numerals it indicates that 1 should be added to the number written before it.
because the the sides of a based form a face of a pyramid
It is golds number. There is a specific number you will find on silver peices as well.
Other hexagons.
Nothing in particular. It is the number of sides in 12 hexagons, but that is hardly "to do with".
Hexagons and triangles are plane polygonal shapes. There is no mixed number for them.
A hexagon has 6 sides. To figure out the total number of sides on 13 hexagons, simply multiply these two numbers together:Total number of sides = 6 x 13 = 78
A hexagon can be broken into any number, k (≥3) of trapezoids, and these will have 4k angles.
A hexagon has 6 sides. To figure out the total number of sides of four hexagons, simply multiply 6 by 4:Total number of sides = 6(4) = 24
It depends how long the trapezoid is horizontally. As the length increases so does the number of triangles that fit.
Quadrilaterals and hexagons are both polygons with straight sides. They each contain an even number of sides and angles. That's about it.
The internal angles of a regular hexagon are 120 degrees. This number goes into 360 degrees three times. So three hexagons can meet at a point without gaps.
Hexagons have six sides, not four. Any number of them can be of the same length.
A hexagon is itself a polygon so it makes little sense to ask about hexagons and polygons. In any case, there were no polygons in the official soccer ball at the 2014 FIFA World Cup in Brazil. The ball was the Adidas Brazuca and it was made from six rounded cross-like shapes.
No. No shape with 7 or more sides will tessellate with multiple copies of itself. All traigles and quadrilaterals will tessellate, there are 14 irregular pentagons (the last was discovered in 2016), and a number of hexagons - including the regular hexagon.