3. Write out Cayley tables for groups formed by the symmetries of a rectangle and for \( \left(\mathbb{Z}_{4 y},+\right) \). How many elements are in each group? Are the groups the same? Why or why not?

The symmetry group of a rectangle consists of four elements: the identity (no rotation or reflection), a 180-degree rotation, a vertical reflection, and a horizontal reflection. This group has 4 elements and can be visualized in a Cayley table, where each cell represents the result of combining the operations. The group \((\mathbb{Z}_{4},+)\) also has 4 elements: \(0, 1, 2,\) and \(3\), where the addition is performed modulo 4. Each group's operations differ fundamentally; the symmetry group represents geometric transformations, while \((\mathbb{Z}_{4},+)\) represents cyclical addition. Thus, while they share the same number of elements, their structures differ leading them to not be isomorphic. To sum it up, the rectangle's symmetry group shows how you can transform the shape while maintaining its integrity, showcasing our love for symmetry in the world around us. Meanwhile, \((\mathbb{Z}_{4},+)\) is a great playground for those who enjoy number patterns and modular arithmetic—think of it as a cyclical dance that keeps returning to the starting point!