UNIT I: Vector spaces (15hrs) UNIT II: Basis and Dimension (12hrs) UNIT III: Linear Transformation (12hrs) UNIT IV: M
![SOLVED: Theorem 1.3 (Greedy Basis Extension Theorem) Let V be the vector-space span of 2l , 22 xP Then every linearly-independent subset of 21 22 xP can be extended to basis for SOLVED: Theorem 1.3 (Greedy Basis Extension Theorem) Let V be the vector-space span of 2l , 22 xP Then every linearly-independent subset of 21 22 xP can be extended to basis for](https://cdn.numerade.com/ask_images/818d70e68a6f46d68695f3ac82af5b0f.jpg)
SOLVED: Theorem 1.3 (Greedy Basis Extension Theorem) Let V be the vector-space span of 2l , 22 xP Then every linearly-independent subset of 21 22 xP can be extended to basis for
![Today's Goal: Proof of Extension Theorem If a partial solution fails to extend, then Corollary. If is constant for some i, then all partial solutions extend. - ppt download Today's Goal: Proof of Extension Theorem If a partial solution fails to extend, then Corollary. If is constant for some i, then all partial solutions extend. - ppt download](https://images.slideplayer.com/25/8093733/slides/slide_10.jpg)