Presentation is loading. Please wait.

Presentation is loading. Please wait.

SPANNING.

Published byἈκελδαμά Ιωαννίδης Modified over 5 years ago

Similar presentations

Presentation on theme: "SPANNING."— Presentation transcript:

1 SPANNING

2 3 6 = 3 1 2 3 6 is a multiple of 1 2 11 8 = 1 2 4 1 2 4 is a linear combination of 11 8 and

3 and Is a linear combination of

4 B is a linear combination of A and C
VECTORS SCALARS The vectors form a COMMUTATIVE GROUP with an identity called C The scalars form a FIELD with identity for + called 0 identity for × called 1 2 A C = B B is a linear combination of A and C

5 -1 -1 -1 Reduced echelon form

6

7

8 Every solution to this homogenious
system is a linear combination of the vectors:

9 SPAN V. The system has infinitely many solutions that form
a vector space, V. It would not be humanly possible to list all of these solutions. Fortunately, the entire vector space is determined by just two vectors. We say that these two vectors SPAN V. Every solution to this homogenious system is a linear combination of the vectors:

10 definition: A set of vectors S is said to span a vector space V
if every vector in V is a linear combination of the vectors in S.

11 and SPAN the plane ( ie: R2 )

12 and SPAN the plane ( ie: R2 ) Every point is a linear combination of these two vectors. For example: =

13 and SPAN the plane ( ie: R2 ) Every point is a linear combination of these two vectors. For example: =

14

Download ppt "SPANNING."

Similar presentations

3.2 Bases and Linear Independence

3.2 Bases and Linear Independence
Vector Spaces A set V is called a vector space over a set K denoted V(K) if is an Abelian group, is a field, and For every element vV and K there exists.

Vector Spaces A set V is called a vector space over a set K denoted V(K) if is an Abelian group, is a field, and For every element vV and K there exists.
More Vectors.

More Vectors.
Example: Given a matrix defining a linear mapping Find a basis for the null space and a basis for the range Pamela Leutwyler.

Example: Given a matrix defining a linear mapping Find a basis for the null space and a basis for the range Pamela Leutwyler.
6.3 Vectors in the Plane Many quantities in geometry and physics, such as area, time, and temperature, can be represented by a single real number. Other.

6.3 Vectors in the Plane Many quantities in geometry and physics, such as area, time, and temperature, can be represented by a single real number. Other.
Vector Spaces & Subspaces Kristi Schmit. Definitions A subset W of vector space V is called a subspace of V iff a.The zero vector of V is in W. b.W is.

Vector Spaces & Subspaces Kristi Schmit. Definitions A subset W of vector space V is called a subspace of V iff a.The zero vector of V is in W. b.W is.
5.3 Linear Independence.

5.3 Linear Independence.
THE DIMENSION OF A VECTOR SPACE

THE DIMENSION OF A VECTOR SPACE
Vector Spaces (10/27/04) The spaces R n which we have been studying are examples of mathematical objects which have addition and scalar multiplication.

Vector Spaces (10/27/04) The spaces R n which we have been studying are examples of mathematical objects which have addition and scalar multiplication.
Vectors and Vector Equations (9/14/05) A vector (for us, for now) is a list of real numbers, usually written vertically as a column. Geometrically, it’s.

Vectors and Vector Equations (9/14/05) A vector (for us, for now) is a list of real numbers, usually written vertically as a column. Geometrically, it’s.
 A equals B  A + B (Addition)  c A scalar times a matrix  A – B (subtraction) Sec 3.4 Matrix Operations.

 A equals B  A + B (Addition)  c A scalar times a matrix  A – B (subtraction) Sec 3.4 Matrix Operations.
EXAMPLE 3 Identify properties of real numbers

EXAMPLE 3 Identify properties of real numbers
Linear Algebra – Linear Equations

Linear Algebra – Linear Equations
Elementary Linear Algebra Howard Anton Copyright © 2010 by John Wiley & Sons, Inc. All rights reserved. Chapter 1.

Elementary Linear Algebra Howard Anton Copyright © 2010 by John Wiley & Sons, Inc. All rights reserved. Chapter 1.
Review of basic concepts and facts in linear algebra Matrix HITSZ Instructor: Zijun Luo Fall 2012.

Review of basic concepts and facts in linear algebra Matrix HITSZ Instructor: Zijun Luo Fall 2012.
Section 4.1 Vectors in ℝ n. ℝ n Vectors Vector addition Scalar multiplication.

Section 4.1 Vectors in ℝ n. ℝ n Vectors Vector addition Scalar multiplication.
A matrix equation has the same solution set as the vector equation which has the same solution set as the linear system whose augmented matrix is Therefore:

A matrix equation has the same solution set as the vector equation which has the same solution set as the linear system whose augmented matrix is Therefore:
A vector space containing infinitely many vectors can be efficiently described by listing a set of vectors that SPAN the space. eg: describe the solutions.

A vector space containing infinitely many vectors can be efficiently described by listing a set of vectors that SPAN the space. eg: describe the solutions.
3 x 55 = 55 x 3 Commutative Property of Multiplication.

3 x 55 = 55 x 3 Commutative Property of Multiplication.
4.8 Rank Rank enables one to relate matrices to vectors, and vice versa. Definition Let A be an m  n matrix. The rows of A may be viewed as row vectors.

4.8 Rank Rank enables one to relate matrices to vectors, and vice versa. Definition Let A be an m  n matrix. The rows of A may be viewed as row vectors.

Similar presentations

Ads by Google