>> Welcome back, still week three.
What we want to do is take a look at an
example, and see how we can use
inequalities, to analyze games and how we
can use inequalities to, to simplify
games.
Example I want to look at is this example
here in Hackenbush.
This is the game G.
There's the, the ground here, the ground
is green.
The blue edge, a red edge, and a blue
edge.
This is Hackenbush, and if you go back to
week one, or at some point there should be
a, dictionary on the site, with, with how
various games work.
Players alternate.
Red is, can only be cut by right.
Blue can only be cut by left.
And once an edge is cut, not only does
that edge disappear, but any edge that's
no longer connected to ground disappears,
will also disappear.
So if you look at the possible left moves,
left can cut this blue edge on the top.
In which case what is left is just, blue,
red, like this.
Or, blue can cut the edge down at the
bottom, in which case what is left is just
nothing.
Now, what I want to do now is, is, give
you another way of writing out games.
Another way of writing out games, and
you'll see this on any of the references
we look at, is left curly bracket, and now
list the possible left moves then a, pipe
in unix vertical, vertical, verticals up
and down and then list the right moves.
So, the possible left moves, are chop off
the bottom blue edge, and that's zero,
this game is zero.
Whoever moves first loses.
Now the other possible opening move for
blue is, or left, is to cut off the top
here.
And that leaves this.
And awhile back we called this game 1
half.
And it turns out, this game, plus itself
is equal to 1, so we might as well call
this 1 half.
Now the possible right moves are to cut
off the red edge there, in which case,
what's left is just one blue edge, and one
blue edge is one move for left and that's
the game 1, we'll call that the game 1.
So this game up here could be represented
abstractly as the game, where left moves
are to 0 or 1 half, and the right moves
are to 1.
Now, you can prove, or, you can go through
the details, or you probably would guess,
that 0 is less than a half.
That's true.
Just look at 1 half.
To say 0 is less than a game means, left
wins the game.
1 half, going first or second.
And look at this game up here.
1 half,, and we see left always wins.
Left going first cuts the blue edge.
Right has no move, right loses.
Right going first cuts the red edge, then
blue cuts the then left cuts the blue
edge.
And again left wins.
So if 0 is left than a half which means
that 1 half is always better, for left,
than 0 is.
So what that says, is there's no reason
whatsoever, that left would ever choose 0.
1 half is always better.
So this game is the same as this, and now
we've simplified the game, to an
equivalent gain with fewer, fewer possible
moves.
We've deleted the moves that are no good
because of inequality.
Now in terms of right moves, there's only
one right move here.
But, if there were several right moves, we
could delete all but the smallest, because
right wants moves to be small, and left
wants moves to be big.
Okay, so let me end with a problem, and
this is for you to work on.
Here's two games, G and H.
And see if you can prove that G is less
than or equal to H.
If you remember right, that says that H
minus G wins the left going second.
So you can work that out.