There is no standard way. Futhermore, by themselves, a list of side lengths provides very limited information. Apart from a triangle, the area of a polygon cannot be determined from the length of its sides.
For a polygon, start with the length of an identified side, and go round in one direction - stating whether you are going clockwise or anticlockwise.
There is no standard way. Futhermore, by themselves, a list of side lengths provides very limited information. Apart from a triangle, the area of a polygon cannot be determined from the length of its sides.
For a polygon, start with the length of an identified side, and go round in one direction - stating whether you are going clockwise or anticlockwise.
There is no standard way. Futhermore, by themselves, a list of side lengths provides very limited information. Apart from a triangle, the area of a polygon cannot be determined from the length of its sides.
For a polygon, start with the length of an identified side, and go round in one direction - stating whether you are going clockwise or anticlockwise.
There is no standard way. Futhermore, by themselves, a list of side lengths provides very limited information. Apart from a triangle, the area of a polygon cannot be determined from the length of its sides.
For a polygon, start with the length of an identified side, and go round in one direction - stating whether you are going clockwise or anticlockwise.
There is no standard way. Futhermore, by themselves, a list of side lengths provides very limited information. Apart from a triangle, the area of a polygon cannot be determined from the length of its sides.
For a polygon, start with the length of an identified side, and go round in one direction - stating whether you are going clockwise or anticlockwise.
The dimensions of any right angle triangle other than an isosceles right triangle which has two equal sides.
If two objects have the same shape, they are called "similar." When two figures are similar, the ratios of the lengths of their corresponding sides are equal. To determine if the triangles shown are similar, compare their corresponding sides.
The surface are is 136 sq in. You have to find the area of each of the six sides. 2 sides will have dimensions of 8x3 (48 sq in) 2 sides will have dimensions of 8x4 (64 sq in) 2 sides will have dimensions of 3x4 (24 sq in) Finally add them all up.
Yes, the common name for an equiangular equilateral quadrilateral would be a square, a special instance of a rhombus (four sided figure with equal sides) which is a common interpretation of "diamond" in two dimensions. If by diamond you mean "kite" then no, by definition kites are not equiangular.
the sides are all the same sizes. but the angles arent.
depending if its octagon regular, or irregular (sides arent equal angles arent equal
they arent quadrilateral has all sides equal and scalene has no sides equal (in measurement)
The dimensions of any right angle triangle other than an isosceles right triangle which has two equal sides.
A 2-dimensions regular polygon is one which has all its sides equal AND all its angles equal.
A rectangle has right angles, a rhombus may not. A rhombus has 4 equal sides, a rectangle might not, if it does it is a square,
They are similar because their sides are proportional and their angles are equal.
If two objects have the same shape, they are called "similar." When two figures are similar, the ratios of the lengths of their corresponding sides are equal. To determine if the triangles shown are similar, compare their corresponding sides.
You gave the dimensions of a figure which is not a square, all of a square's sides are equal.
A trapezoid is a quadrilateral shape that has four sides of unequal lengths two of which are parallel to each other. An isosceles trapezoid also has two parallel sides but with two other sides being of equal length.
The surface are is 136 sq in. You have to find the area of each of the six sides. 2 sides will have dimensions of 8x3 (48 sq in) 2 sides will have dimensions of 8x4 (64 sq in) 2 sides will have dimensions of 3x4 (24 sq in) Finally add them all up.
Yes, the common name for an equiangular equilateral quadrilateral would be a square, a special instance of a rhombus (four sided figure with equal sides) which is a common interpretation of "diamond" in two dimensions. If by diamond you mean "kite" then no, by definition kites are not equiangular.
.2d has 2 dimensions: corners and sides.3d has 3 dimensions: vortices (corners), sides and faces.