06-240/Navigation Panel   # Week of... Notes and Links 1 Sep 11 About, Tue, HW1, Putnam, Thu 2 Sep 18 Tue, HW2, Thu 3 Sep 25 Tue, HW3, Photo, Thu 4 Oct 2 Tue, HW4, Thu 5 Oct 9 Tue, HW5, Thu 6 Oct 16 Why?, Iso, Tue, Thu 7 Oct 23 Term Test, Thu (double) 8 Oct 30 Tue, HW6, Thu 9 Nov 6 Tue, HW7, Thu 10 Nov 13 Tue, HW8, Thu 11 Nov 20 Tue, HW9, Thu 12 Nov 27 Tue, HW10, Thu 13 Dec 4 On the final, Tue, Thu F Dec 11 Final: Dec 13 2-5PM at BN3, Exam Forum Register of Good Deeds Add your name / see who's in! edit the panel

• PDF notes by User:Harbansb: September 12 Notes.
• If I have made an error in my notes, or you would like the editable OpenOffice file, feel free to e-mail me at harbansb@msn.com.
• September 12 Notes for re-uploading, please email at jeff.matskin@utoronto.ca
• PDF notes by User:Alla: Week 1 Lecture 1 notes
• Below are a couple of lemmata critical to the derivation we did in class - the Professor left this little work to the students:
  • 06-240: Edit1.jpg
  • 06-240: Edit2.jpg

Notes

The Real Numbers

The Real Numbers are a set (denoted by ${\displaystyle \mathbb {R} }$) along with two binary operations: + (plus) and · (times) and two special elements: 0 (zero) and 1 (one), such that the following laws hold true:
${\displaystyle \mathbb {R} 1:\forall a,b\in \mathbb {R} {\mbox{ s.th.}}\quad a+b=b+a\quad {\mbox{and}}\quad a\cdot b=b\cdot a}$ (The Commutative Laws)
${\displaystyle \mathbb {R} 2:\forall a,b,c\in \mathbb {R} {\mbox{ s.th.}}\quad (a+b)+c=a+(b+c)\quad {\mbox{and}}\quad (a\cdot b)\cdot c=a\cdot (b\cdot c)}$ (The Associative Laws)
${\displaystyle \mathbb {R} 3:0{\mbox{ is an additive unit}}\quad {\mbox{and}}\quad 1{\mbox{ is a multiplicative unit}}}$ (The Existence of Units/Identities)
${\displaystyle \mathbb {R} 4:\forall a\in \mathbb {R} \ \exists b\in \mathbb {(} R){\mbox{ s.th.}}\ a+b=0}$

This is incomplete.