No, that's not true.
false APEX :)
Two sides and the included angle of one triangle must be congruent to two sides and the included angle of the other.
An isosceles trapezium in which the sloped sides are congruent to either the base or the top will have a total of three congruent sides. The top and bottom MUST be different.
An isosceles trapezium will have two and can have three congruent sides. But the base and top MUST be different.
A square.
False
False dood
False
Yes. The polygons must be congruent. They must have an even number of sides and angles. -alessandra
No, similar pentagons (or any polygon for that matter) must have corresponding congruent angles and all sides must be proportional to its corresponding sides. For example, if a square with a triangle on it is a pentagon, then a regular pentagon would not be similar to it (because corresponding angles are not congruent).
An isosceles trapezoid must have a pair of parallel sides and a pair of congruent sides
All four sides of a rhombus must be congruent. In order for it to have four equal sides, it must have two!
2 sides must be congruent and opposite those two sides must be congruent angles.
An impossibility. By definition a quadrilateral with 4 congruent sides must have congruent adjacent angles.
Two sides and the included angle of one triangle must be congruent to two sides and the included angle of the other.
The seven sides, in order, must be congruent, as must the seven angles.
If they are congruent they must be similar.
An isosceles trapezium in which the sloped sides are congruent to either the base or the top will have a total of three congruent sides. The top and bottom MUST be different.