09-240/Classnotes for Tuesday September 15: Difference between revisions

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# <math>\,\!F_2 = \{ 0, 1 \}</math>
# <math>\,\!F_2 = \{ 0, 1 \}</math>
# <math>\,\!F_7 = \{ 0, 1,2,3,4,5,6 \}</math>
# <math>\,\!F_7 = \{ 0, 1,2,3,4,5,6 \}</math>
# <math>\,\!F_6 = \{ 0, 1,2,3,4,5, \}</math> is not a field (counterexample)
# <math>\,\!F_6 = \{ 0, 1,2,3,4,5 \}</math> is not a field (counterexample)
'''Theorem''': <math>\,\!F_P </math> for <math>p>1</math> is a field '''IFF''' <math>p</math> is a prime number
'''Theorem''': <math>\,\!F_P </math> for <math>p>1</math> is a field '''IFF''' <math>p</math> is a prime number



Revision as of 20:10, 15 September 2009

File:Classnotes For Tuesday, September 15.jpg yangjiay:09-240 Classnotes for Tuesday September 15 2009 page 5.jpg


The real numbers A set with two binary operators and two special elements s.t.

Note: or means inclusive or in math.

Definition: A field is a set F with two binary operators : F×FF, : F×FF and two elements s.t.

Examples

  1. is not a field (counterexample)

Theorem: for is a field IFF is a prime number

Tedious Theorem

...