That's interesting GingerAle! I've not come across theSchulze method before. It's not the same as the method I proposed, but could probably be used here (though there's more work invoved!).
Not as far as I know!
This graph might give you a start:
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The diagonal of the square, and hence the diameter of the circle, will be \(\sqrt2\times12\)
The area of the circle will therefore be: \(\pi\times(\sqrt2\times12)^2/4\)
Equate this to \(k\times\pi\) and rearrange to get k
One possibility is as follows:
(of course, I've made up arbitrary rankings for the 10% table above; you would need to replace these with your actual rankings).
Look more carefully!!
792*14 = 11088
792*15 = 11880
"The Lakers are playing the Celtics in the NBA finals. To win the NBA finals, a team must win 4 games before the other team does. If the Celtics win each game with probability 2/3 and there are no ties, what is the probability that the Lakers will win the NBA finals but that the contest will need all seven games to be decided? Express your answer as a fraction."
You first need a density (kg/m3) to do this.
5*103*5*102 → 25*103+2 → 25*105 → 2.5*106
Since cos 45 = sin 45 the x-component velocity is the same as the y-component.