Which virtual cells look the same as the basic cell?

AI Thread Summary
The discussion revolves around identifying which virtual cells appear identical to the basic cell in a setup involving mirror reflections. Participants express confusion about the naming conventions for these patterns and the number of reflections needed for the analysis. It is suggested that considering just one reflection per mirror may suffice, rather than attempting to account for an infinite number of reflections. The conversation emphasizes the importance of visualizing the reflections as they occur within the defined virtual cells. Ultimately, the focus is on understanding the mathematical implications of these reflections in relation to the basic cell's structure.
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Homework Statement



fJD1nAu.png


Above is the basic cell drawn with an object inside of it. You look in top view of the basic cell and the space around it filled with virtual cells.


You can see the top view of a basic cell (the square [that is marked blue] formed by the four real mirrors with a height of 10 cm, with the original physical object with a height of 5 cm inside ) and all the copies (mirror images and mirror images of mirror images) around it, which fill a plane.
Question 1: Which virtual cells look the same as the basic cell? Do You see a regularity/pattern?
Explain this mathematically.



Homework Equations


mirror reflections


The Attempt at a Solution


1. I don't understand that whether there is a name for those kind of patterns or not. And How many reflections I should draw. I guess it could be an infinite amount... So anyone a clue?
 
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Pretend each mirror in turn is the only mirror that exists. eg Just draw one reflection in each cell and see what you get.
 
well, how to image that it gets reflected like 4,5,6 times?
 
I don't think the problem expects you to consider an infinite number of reflections. Just one in each mirror.

This is what I would expect. I've only shown two virtual cells...
 

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PS: The multiple reflections (4,5,6 etc) would be located outside the virtual cells.
 

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