Can you please help me explain further to more than three types of symmetry (rotational, translational, reflection/reflective, glide symmetry, tessellations). And answer each question in one paragraph 

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1. Hexagonal Rotational Symmetry in a Beehive Honeycomb

Beehive honeycombs are characterized by the presence of hexagonal cells, each of which displays rotational symmetry of 120

Reflective symmetry is observed in the honeycomb structure, since it exhibits bilateral symmetry along specific axes, resulting in cells that are mirror images of each other.

Translational symmetry is observed in the hexagonal cells as they exhibit repetition both horizontally and vertically, hence preserving the identical pattern throughout.

Tessellations refer to the geometric arrangement of hexagonal cells that exhibit a flawless pattern, effectively occupying space without any discernible gaps.

2. The Presence of Rotational Symmetry in Stained Glass Windows: -

• Rotational Symmetry: Numerous stained glass windows have a circular or radial composition, thereby exemplifying the characteristic of rotational symmetry. When a point is selected at the center and rotated, the pattern exhibits consistent repetition at regular intervals.

• Reflecting symmetry is a common characteristic observed in stained glass, wherein mirrored designs are frequently employed along both vertical and horizontal axes, resulting in the creation of reflecting symmetry. • Translational Symmetry: Certain designs exhibit the property of translational symmetry, wherein the recurring motifs can be displaced either horizontally or vertically while preserving the identical pattern.

• Tessellations occur when the individual glass pieces are arranged in a manner that allows them to fit together seamlessly, forming a cohesive and uninterrupted pattern that spans the entirety of the window.