12-240/Classnotes for Thursday October 11: Difference between revisions
No edit summary |
(→Proofs) |
||
(11 intermediate revisions by 2 users not shown) | |||
Line 1: | Line 1: | ||
{{12-240/Navigation}} |
|||
In this lecture, the professor concentrate on corollaries of basic and dimension. |
|||
== Annoucements == |
|||
TA Office Hours (Still pending!) @ 215 Huron St., 10th floor. |
|||
Peter - 11am - 1pm |
|||
Brandon 1pm - 3pm |
|||
Topic: Replacement Theorem |
|||
== corollaries == |
|||
1/ If V has a finite basic β1, then any other basic β2 of V is also finite and |β1|=|β2| |
|||
2/ "dim V" makes sense |
|||
dim V = |β| if V has a finite basic β |
|||
Otherwise, dim V = <math>\infty \!\,</math> |
|||
ex: dim P(F)= <math>\infty \!\,</math> |
|||
3/ Assume dim V = n < <math>\infty \!\,</math> then, |
|||
a) If G generate V then |G|<math>\ge \!\,</math> n & some set of G is a basic of V. ( If |G|= n, itself is a basic) |
|||
b) If L is linearly independent then |L|<math>\le \!\,</math> n, if |L|=n then L is a basic, if |L|< n then L can be extended to become a basic. |
|||
== Proofs == |
|||
1) β2 generate and β1 is linearly independent |
|||
From replacement theorem |
|||
|β2|<math>\ge\!\,</math> |β1| , ( role reversal), |β1|<math>\ge\!\,</math> |β2| |
|||
Then |β2|= |β1| |
|||
3) a) (|G| <math>\ge\!\,</math> n) |
|||
by dim V = n, exist basic β of V with n elements, Take L = β in the replacement lemma, |G| = n1 |
|||
|L| <math>\le\!\,</math> n1= |G| |
|||
Hence n <math>\le\!\,</math> |G| |
|||
== Lecture notes scanned by [[User:Oguzhancan|Oguzhancan]] == |
== Lecture notes scanned by [[User:Oguzhancan|Oguzhancan]] == |
Latest revision as of 16:38, 12 October 2012
|
In this lecture, the professor concentrate on corollaries of basic and dimension.
Annoucements
TA Office Hours (Still pending!) @ 215 Huron St., 10th floor.
Peter - 11am - 1pm
Brandon 1pm - 3pm
Topic: Replacement Theorem
corollaries
1/ If V has a finite basic β1, then any other basic β2 of V is also finite and |β1|=|β2|
2/ "dim V" makes sense
dim V = |β| if V has a finite basic β
Otherwise, dim V =
ex: dim P(F)=
3/ Assume dim V = n < then,
a) If G generate V then |G| n & some set of G is a basic of V. ( If |G|= n, itself is a basic)
b) If L is linearly independent then |L| n, if |L|=n then L is a basic, if |L|< n then L can be extended to become a basic.
Proofs
1) β2 generate and β1 is linearly independent
From replacement theorem
|β2| |β1| , ( role reversal), |β1| |β2|
Then |β2|= |β1|
3) a) (|G| n)
by dim V = n, exist basic β of V with n elements, Take L = β in the replacement lemma, |G| = n1
|L| n1= |G|
Hence n |G|