it is impossible i think. BUT if u want to know go on Google type in a hexagon with 3 right angles then click mages and maybe it will show u.
A concave irregular hexagon can have up to 6 right angles. A convex irregular hexagon can have up to 3 right angles.
Oh, dude, drawing a pentagon with 3 right angles is like trying to make a square with 5 sides. It's just not gonna happen in the world of geometry. You can have a pentagon with 5 equal sides, but throwing in those right angles is a big no-no.
The sum of the interior angles of a quadrilateral is 360 degrees. If three of the angles are right angles, that is, of 90 degrees each, the the fourth must be 90 degrees. So you can have a quadrilateral with three right angles but its fourth angle will also be a right angle. So exactly 3 right angles is not possible.
No.For example, a hexagon with equal angles and sides of lengths a,b,a,b,a,b has rotational symmetry of order 3, but it has no reflection symmetry.No.For example, a hexagon with equal angles and sides of lengths a,b,a,b,a,b has rotational symmetry of order 3, but it has no reflection symmetry.No.For example, a hexagon with equal angles and sides of lengths a,b,a,b,a,b has rotational symmetry of order 3, but it has no reflection symmetry.No.For example, a hexagon with equal angles and sides of lengths a,b,a,b,a,b has rotational symmetry of order 3, but it has no reflection symmetry.
Draw a line from midpoint of every other side to the center.
A concave irregular hexagon can have up to 6 right angles. A convex irregular hexagon can have up to 3 right angles.
A regular hexagon has zero right angles. An irregular convex hexagon could have 0-3.
A irregular hexagon
irregular hexagon?
An irregular hexagon
A hexagon has 6 sides ans 6 angles. It has 0 right angles. * * * * * The above answer is not true. A hexagon can have 0, 1, 2, 3, 4, 5 or 6 right angles. If you doubt the last, consider ___ |..|___ |_____| Admittedly, one of the interior angles is 270 degrees, but the associated exterior angle is 90 deg.
3 maximum. A hexagon has 720°. With 3 right angles = 270°, this leaves 450° divided over the remaining 3 (average 150° each). If it had 4 right angles, then there would be 360° to be divided between the remaining two angles. So one of the angles would have to be greater than 180° (making it concave, not convex). An angle at a vertex cannot equal 180°, because that would be a straight line, then it wouldn't be a hexagon, anymore.
It is impossible to have a triangle with 3 right angles. It is possible to draw a triangle with three right angles on the surface of a sphere: www.metacafe.com/watch/769025/270_degree_triangle_yes_3_right_angles
Oh, dude, drawing a pentagon with 3 right angles is like trying to make a square with 5 sides. It's just not gonna happen in the world of geometry. You can have a pentagon with 5 equal sides, but throwing in those right angles is a big no-no.
I dont know ;3
Draw any square or rectangle, and you have it.
It would be impossible. A trapezoid can't have three right angles. It would just make a rectangle.