Cylinder, Cube, Prism.
prism and cylinder
Prism, Cylinder, and Cube
If it has at least one set of parallel sides, then at least one set of angles are congruent
No, the diagonals of a trapezoid are not always congruent. A trapezoid is a quadrilateral with at least one pair of parallel sides. The diagonals of a trapezoid connect the non-parallel vertices, and their lengths can vary depending on the specific dimensions of the trapezoid. In a trapezoid where the non-parallel sides are of equal length, the diagonals will be congruent, but this is not always the case.
A trapezoid is a quadrilateral with at least one pair of parallel sides. The parallel sides are called bases, and the non-parallel sides are called legs. The bases can be of different lengths, but they must be parallel to each other. The angles formed by the bases and the legs of a trapezoid can vary in size.
A prism
Prisms.
prism and cylinder
Prism, Cylinder, and Cube
at least one pair of opposite sides is parallel
The answer is A. cylinder F. cube and in APEX a Prism JUST SAYIN :P
If it has at least one set of parallel sides, then at least one set of angles are congruent
Not true. They have only one base and several (3 or more) lateral triangular faces. A pyramid has a single vertex over a base - there are no parallel faces in any pyramid.
No. A quadrilateral is trapezoid if it has at least one pair of parallel sides.
No, the diagonals of a trapezoid are not always congruent. A trapezoid is a quadrilateral with at least one pair of parallel sides. The diagonals of a trapezoid connect the non-parallel vertices, and their lengths can vary depending on the specific dimensions of the trapezoid. In a trapezoid where the non-parallel sides are of equal length, the diagonals will be congruent, but this is not always the case.
How about a cylinder or a cuboid
Any shape with at least two straight sides can have opposite parallel and congruent sides. For example, a running track.