"Imagine an endless row of hotel rooms, and each room contains a lightbulb and a switch that controls it. Initially, all the rooms are dark. A robot starts at one of the rooms, and has the ability to operate switches and move to adjacent rooms.
The robot has several states that it can be in, and each state determines what it should do based on whether the current room is light or dark. For example, a robot's rules could include these states:
The "scared" state:
If the room is dark, turn on the light and move to the room to the left.
If the room is light, do nothing and go to the "normal" state.
The "normal" state:
If the room is light, turn off the light and move to the room on the right.
Otherwise, go to the "scared" state.
One special state is the "stop" state. When the robot finds itself in this state, the process is complete.
Suppose a robot has n states (not including the "stop" state), and it stops. What is the maximum number of light rooms at this point?
This system is in direct allegory to Turing machines. The hotel is the tape, the robot is the Turing machine, and dark rooms and light rooms are 0 and 1 cells."
It is from googology wiki. I gave an idea to it, but, of course, this text has been improved since me.