11 ideas
15717 | Using Choice, you can cut up a small ball and make an enormous one from the pieces [Kaplan/Kaplan] |
21554 | Sets always exceed terms, so all the sets must exceed all the sets [Lackey] |
21553 | It seems that the ordinal number of all the ordinals must be bigger than itself [Lackey] |
15712 | 1 and 0, then add for naturals, subtract for negatives, divide for rationals, take roots for irrationals [Kaplan/Kaplan] |
15711 | The rationals are everywhere - the irrationals are everywhere else [Kaplan/Kaplan] |
15714 | 'Commutative' laws say order makes no difference; 'associative' laws say groupings make no difference [Kaplan/Kaplan] |
15715 | 'Distributive' laws say if you add then multiply, or multiply then add, you get the same result [Kaplan/Kaplan] |
6900 | A prior understanding of beauty is needed to assert that the Form of the Beautiful is beautiful [Westaway] |
6956 | At what point does an object become 'whole'? [Westaway] |
15713 | The first million numbers confirm that no number is greater than a million [Kaplan/Kaplan] |
7335 | The Chinese Room should be able to ask itself questions in Mandarin [Westaway] |