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OCE301 Part II: Linear Algebra lecture 2

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Title: OCE301 Part II: Linear Algebra lecture 2


1
OCE301 Part II Linear Algebralecture 2
2
Simultaneous Equations in Matrix Form
3
Linear Systems of Equations
coefficient matrix and augmented matrix
4
Gauss Elimination
  • The Gauss elimination is a standard method for
    solving linear systems (a systematic elimination
    process).

5
Example of Gauss Elimination
Textbook example pp.324-326
augmented matrix
equations
Linear system is completely defined by its
augmented matrix
6
First Step
elimination of x1
add 1 times the pivot equation to the second
equation add 20 times the pivot equation to the
fourth equation
7
Row Operations
Operations for equations
Row operations for matrices
Interchange of two rows
Interchange of two equations
Addition of a constant multiple of one row to
another row
Addition of a constant multiple of one equation
to another equation
Multiplication of an equation by a nonzero
constant c
Multiplication of a row by a nonzero constant c
8
Exercise of Row Operations
augmented matrix
9
Second Step
elimination of x2
move the second equation at the end
add 3 times the new pivot equation to the
third equation
10
Third Step
upper triangular matrix
back substitution determining x3, x2, x1
work backward from the last to the first equation
11
Echelon Form
  • The form of the system and of the matrix in the
    last step of the Gauss elimination is call the
    echelon form.
  • From the echelon form, one can conclude three
    possible cases
  • No solution
  • Precisely one solution
  • Infinitely many solutions

12
Matlab Gauss Elimination (left matrix divide)
\ Backslash or left matrix divide. A\B is
the matrix division of A into B, which is roughly
the same as inv(A)B , except it is computed
in a different way.
If A is an n-by-n matrix and B is a column
vector with n components, or a matrix with
several such columns, then X A\B is the
solution to the equation AX B computed by
Gauss elimination.
C mldivide(A,B) is called for the syntax 'A \ B'
13
Matlab Example Gauss Elimination
A 1 -1 1
-1 1 -1 0
10 25 20 10
0 b 0 0
90 80 x 2
4 2
format rat A1 -1 1 -1 1 -1 0 10 25
20 10 0 b0 0 90 80' x A\b
14
Row-equivalent Systems
A linear system S1 row-equivalent to a linear
system S2 if S1 can be obtained from S2 by
elementary row operations.
S1
S2
Row-equivalent linear systems have the same set
of solutions.
15
Matrix a set of Column Vectors
coefficient matrix a set of column vectors
16
Linear Dependence and Independence
17
Linear Combination
If ck is nonzero
If one vector in a set of vectors can be
expressed as a linear combination of the others,
the vectors are linearly dependent.
18
Example Problems
Answer independent
Answer dependent
19
Just Determined Linear System
Just-determined system same equations and
unknowns
Over-determined system more equations than
unknowns
Under-determined system fewer equations than
unknowns
20
Rank of a Matrix
The rank of a matrix A, written as r(A), is the
maximum number of linearly independent row
vectors of a matrix A.
Answer r(A) 2
Matlab function rank(A)
21
Rank in terms of Column Vectors
The rank of a matrix A, written as r(A), is the
maximum number of linearly independent row
vectors of a matrix A.
The rank of a matrix A equals the maximum
number of linearly independent column vector of
A.
A and its transpose AT have the same rank.
(proof omitted)
Row-equivalent matrices have the same rank.
22
Linear dependence/independence
p vectors are linearly independent if the matrix
with the p vectors has rank p they are linearly
dependent if that rank is less than p.
Applying Matlab, one uses rank to determine
whether a number of vectors are linearly
independent.
23
Solutions of linear systemsExistence and
Uniqueness
coefficient matrix
augmented matrix
(one more column vector)
24
Uniqueness
25
Consistent and Homogeneous
A set of simultaneous, linear algebraic equations
is termed consistent if there is a solution and
inconsistent if there is no solution.
If b is not null, the set of equations is said
to be non-homogeneous, and if b is null, the set
of equations is said to be homogeneous.
26
Vector Space and Dimension
A vector space is a set V of vectors such that
with any two vectors a and b in V all their
linear combinations aa bb (a, b any real
numbers) are elements of V.
The maximum number of linearly independent
vectors in V is called the dimension of V.
27
Homogeneous Linear System
always has the trivial solution x 0
nontrivial solutions exist if and only if r(A)
lt n
if r(A) r lt n, nontrivial and trivial
solutions form a dimension of n r, called the
solution space.
This solution space is also called the null space
of A because Ax 0 for every x in the solution
space. Its dimension is called the nullity of A.
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