1. Pick any vertex corner point on the hexagon
2. Draw straight line, going clockwise, to corner point skipping the corner point next to where you started
3. From the new point draw another straight line to corner point, going clockwise, again skipping the next corner point
4. There you have it!
No, scalene triangles, which have sides of different lengths, have none. Isosceles triangles, with only two sides the same, only have one.
Draw lines from point to point and now you have six triangles to calculate
Draw lines from every other angle that meet in the center.
An isosceles right triangle is a 45° 45° 90° triangle. If you know how to construct a right angle (two lines that are perpendicular), then just take a compass, with the point on the intersection of the perpendicular lines, and mark the same distance on each of the perpendicular lines, then use a straight edge to connect those two points. Or, if you have a square, you can connect two of opposite corners with a diagonal and you will have 2 triangles, both of them isosceles right triangles.
A hexagon has parallel lines.
4
No, isosceles triangles only have one. ■
Look at it the other way. Draw a hexagon, and draw two horizontal lines, in each case from one vertex to another one. That way you'll see how to divide the hexagon into a rectangle (not necessarily a square), and two triangles - which, of course, you can combine again to form the hexagon.
no they do not they have to be equal so that proves there is NO lines of symmetry * * * * * It depends on the triangle. Equilateral triangles have 3 lines of symmetry, Isosceles triangles have 1 and all other triangles have none.
Scalene triangles have none. Isosceles triangles have one, and equilateral triangles have three.
never tried it without my Gay lines so I wouldn't know for sure, but try 3 and see what you get
Isosceles and Equilateral Triangles
Isosceles
Like all other triangles it has no parallel lines.
Isosceles
No, scalene triangles, which have sides of different lengths, have none. Isosceles triangles, with only two sides the same, only have one.
Draw lines from point to point and now you have six triangles to calculate