14-240/Tutorial-October7: Difference between revisions

DBN: Classes: 2014-15: 14-240 / Navigation Welcome to Math 240! (additions to this web site no longer count towards good deed points) # Week of... Notes and Links 1 Sep 8 About This Class, What is this class about? (PDF, HTML), Monday, Wednesday 2 Sep 15 HW1, Monday, Wednesday, TheComplexField.pdf,HW1_solutions.pdf 3 Sep 22 HW2, Class Photo, Monday, Wednesday, HW2_solutions.pdf 4 Sep 29 HW3, Wednesday, Tutorial, HW3_solutions.pdf 5 Oct 6 HW4, Monday, Wednesday, Tutorial, HW4_solutions.pdf 6 Oct 13 No Monday class (Thanksgiving), Wednesday, Tutorial 7 Oct 20 HW5, Term Test at tutorials on Tuesday, Wednesday 8 Oct 27 HW6, Monday, Why LinAlg?, Wednesday, Tutorial 9 Nov 3 Monday is the last day to drop this class, HW7, Monday, Wednesday, Tutorial 10 Nov 10 HW8, Monday, Tutorial 11 Nov 17 Monday-Tuesday is UofT November break 12 Nov 24 HW9 13 Dec 1 Wednesday is a "makeup Monday"! End-of-Course Schedule, Tutorial F Dec 8 The Final Exam Register of Good Deeds Add your name / see who's in!

Boris

Subtle Problems in Proofs

Check out these proofs:

(1) Let ${\displaystyle W_{1}}$, ${\displaystyle W_{2}}$ be subspaces of a vector space ${\displaystyle V}$. We show that ${\displaystyle W_{1}\cup W_{2}}$ is a subspace

${\displaystyle \implies W_{1}\subset W_{2}\lor W_{2}\subset W_{1}}$.

Assume that ${\displaystyle W_{1}\cup W_{2}}$ is a subspace.

Let ${\displaystyle x\in W_{1},y\in W_{2}}$.

Then ${\displaystyle x,y\in W_{1}\cup W_{2}}$ and ${\displaystyle x+y\in W_{1}\cup W_{2}}$.

Then ${\displaystyle x+y\in W_{1}\lor x+y\in W_{2}}$.

Case 1: ${\displaystyle x+y\in W_{1}}$:

Since ${\displaystyle x\in W_{1}}$ and ${\displaystyle W_{1}}$ has additive inverses, then ${\displaystyle (-x)\in W_{1}}$.

Then ${\displaystyle (x+y)+(-x)=y\in W_{1}}$.

Case 2: ${\displaystyle x+y\in W_{2}}$:

Since ${\displaystyle y\in W_{2}}$ and ${\displaystyle W_{2}}$ has additive inverses, then ${\displaystyle (-y)\in W_{2}}$.

Then ${\displaystyle (x+y)+(-y)=x\in W_{2}}$.

Then ${\displaystyle x\in W_{2}\lor y\in W_{1}}$.

Then ${\displaystyle W_{1}\subset W_{2}\lor W_{2}\subset W_{1}}$. Q.E.D.

(2) Let ${\displaystyle V=\{(a_{1},a_{2}):a_{1},a_{2}\in R\}}$. Then ${\displaystyle \forall (a_{1},a_{2}),(b_{1},b_{2})\in V,\forall c\in R}$, define ${\displaystyle (a_{1},a_{2})+(b_{1},b_{2})=(a_{1}+2b_{1},a_{2}+3b_{2})}$ and ${\displaystyle c(a_{1},a_{2})=(ca_{1},ca_{2})}$. We show that ${\displaystyle V}$ is not a vector

space over ${\displaystyle R}$.

Nikita