triangle
Measure the length of a side in the first figure = L1. Measure the length of the corresponding side in the second figure = L2. Then, provided L1 and L2 are in the same units, the relevant ratio is L1/L2.
if the angles of a figure are the same but the sides aren't, it is similiar. Congruent is angles and sides exactly the same
Triangle
Equilateral triangle.
triangle
a square :D
square
Measure the length of a side in the first figure = L1. Measure the length of the corresponding side in the second figure = L2. Then, provided L1 and L2 are in the same units, the relevant ratio is L1/L2.
Any Polygon can be a regular figure, if the figure has all straight sides and edges, with all the same length. If the decagon had all straight edges, sides, and same lengths of sides, it would be a regular figure. Otherwise, it would not, and would be an irregular Decagon. * * * * * That is not a correct answer. Any polygon, by definition MUST have all straight sides (which are the same as edges). What makes a polygon regular is that all the sides are the same length AND that all the interior angles are the same measure. Both these conditions must be met.
if the angles of a figure are the same but the sides aren't, it is similiar. Congruent is angles and sides exactly the same
Triangle
measure it's sides and then multipy them.
Congruent because the sides of an equilateral figure are of the same length.
Congruent because the sides of an equilateral figure are of the same length.
Equilateral triangle.
It is an equilateral triangle