No, a rectangle has 4 sides, and 4 right-angled angles, the 2 opposite sets of parallel sides with equal lengths to each other, like an extended square.
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A rectangular box of dashes.
But a hexagon has six sides. A regular hexagon has all sides and all angles equal, each internal angle being 120o.
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A regular hexagon.
There can be no such thing as a rectangle hexagon. A rectangle is a polygon that is distinct from a hexagon.There can be no such thing as a rectangle hexagon. A rectangle is a polygon that is distinct from a hexagon.There can be no such thing as a rectangle hexagon. A rectangle is a polygon that is distinct from a hexagon.There can be no such thing as a rectangle hexagon. A rectangle is a polygon that is distinct from a hexagon.
A hexagon has six sides while a rectangle only has four.
Nope, a hexagon has six sides and a rectangle only has four sides.
No because a rectangle has 4 sides whereas a hexagon has 6 sides
A 6 sided hexagon polygon can be regular or irregular.
If the hexagon's sides and angles are congruent, then it a regular hexagon.
There are 9 diagonals in any hexagon!The hexagon does not have to be regular.
Yes, a regular hexagon does tessellate.
as rectangle is to square I would say Rectangle is to Triangle. Because Hexagon-6sides, pentagon-5 sides, Rectangle-4 sides, triangle 3 sides. But that is just me :)
To find the area of the shaded region (the rectangle inside the hexagon), we first calculate the area of the hexagon using the formula ( \text{Area} = \frac{3\sqrt{3}}{2} \times a^2 ), where ( a ) is the apothem. Given that the apothem is 15.59 units, the area of the hexagon is approximately ( \frac{3\sqrt{3}}{2} \times (15.59^2) \approx 609.67 ) square units. Assuming the rectangle’s area is not specified, the shaded area would be the hexagon's area minus the rectangle's area. If the rectangle's area is provided, subtract it from the hexagon's area to find the shaded region's area.
A regular hexagon and some irregular ones will tessellate, But in general they will not.