can you plese Write a series of rigid motions that transform pentagon ABCDE to pentagon A′B′C′D′E′.

Without knowing the specific positions of the vertices of pentagon ABCDE and pentagon A′B′C′D′E′, it is not possible to determine a specific series of rigid motions that will transform one into the other. However, in general, a series of rigid transformations could include translations, rotations, and reflections. Here is an example of one possible series of rigid motions that could transform pentagon ABCDE to pentagon A′B′C′D′E′:

1. Translation: Move pentagon ABCDE to place vertex A at the origin (0,0).
2. Rotation: Rotate pentagon ABCDE so that side AB lies along the positive x-axis. This can be done by rotating the pentagon counterclockwise by an angle of θ, where θ is the angle formed by sides AB and AE in pentagon ABCDE.
3. Reflection: Reflect pentagon ABCDE across the x-axis.
4. Translation: Move pentagon ABCDE to place vertex A′ at its new location in pentagon A′B′C′D′E′.

Note that this is just one example of a series of rigid motions that could transform pentagon ABCDE to pentagon A′B′C′D′E′. Depending on the specific positions and orientations of the two pentagons, other series of rigid motions could be used as well.

So, the correct sequence of rigid motions is reflection over the x-axis followed by a rotation of 90 degrees counterclockwise about the origin.

It is possible that reflection over the x-axis followed by a rotation of 90 degrees counterclockwise about the origin would transform pentagon ABCDE into pentagon A′B′C′D′E′, but it cannot be determined without knowing the specific positions of the vertices of the two pentagons. The sequence of rigid motions required to transform one shape into another will depend on the exact positions and orientations of the shapes in question.