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Major: All Engineering Majors Author(s): Autar Kaw

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Presentation on theme: "Major: All Engineering Majors Author(s): Autar Kaw "— Presentation transcript:

1 Gaussian Elimination http://nm.MathForCollege.com
Major: All Engineering Majors Author(s): Autar Kaw Transforming Numerical Methods Education for STEM Undergraduates

2 Naïve Gaussian Elimination
A method to solve simultaneous linear equations of the form [A][X]=[C] Two steps 1. Forward Elimination 2. Back Substitution

3 Forward Elimination The goal of forward elimination is to transform the coefficient matrix into an upper triangular matrix

4 Forward Elimination Exercise: Show the steps for this slide (10 minutes).

5 Back Substitution Example of a system of 3 equations
Solve each equation starting from the last equation Example of a system of 3 equations

6 THE END

7 Naïve Gauss Elimination Pitfalls

8 Pitfall#1. Division by zero

9 Is division by zero an issue here?

10 Is division by zero an issue here? YES
Division by zero is a possibility at any step of forward elimination

11 Pitfall#2. Large Round-off Errors
Exact Solution

12 Solve it on a computer using 6 significant digits with chopping
Pitfall#2. Large Round-off Errors Solve it on a computer using 6 significant digits with chopping

13 Pitfall#2. Large Round-off Errors
Solve it on a computer using 5 significant digits with chopping Is there a way to reduce the round off error?

14 Avoiding Pitfalls Increase the number of significant digits
Decreases round-off error Does not avoid division by zero

15 Avoiding Pitfalls Gaussian Elimination with Partial Pivoting
Avoids division by zero Reduces round off error

16 THE END

17 Gauss Elimination with Partial Pivoting http://nm.MathForCollege.com

18 What is Different About Partial Pivoting?
At the beginning of the kth step of forward elimination, find the maximum of If the maximum of the values is in the p th row, then switch rows p and k.

19 Which two rows would you switch?
Example (2nd step of FE) Which two rows would you switch?

20 Example (2nd step of FE) Switched Rows

21 Gaussian Elimination with Partial Pivoting
A method to solve simultaneous linear equations of the form [A][X]=[C] Two steps 1. Forward Elimination 2. Back Substitution

22 THE END

23 Gauss Elimination with Partial Pivoting Example

24 Example 2 Solve the following set of equations by Gaussian elimination with partial pivoting 24

25 Example 2 Cont. Forward Elimination Back Substitution 25

26 Forward Elimination 26

27 Number of Steps of Forward Elimination
Number of steps of forward elimination is (n-1)=(3-1)=2

28 Forward Elimination: Step 1
Examine absolute values of first column, first row and below. Largest absolute value is 144 and exists in row 3. Switch row 1 and row 3.

29 Forward Elimination: Step 1 (cont.)
Divide Equation 1 by 144 and multiply it by 64, . Subtract the result from Equation 2 Substitute new equation for Equation 2 29

30 Forward Elimination: Step 1 (cont.)
Divide Equation 1 by 144 and multiply it by 25, . Subtract the result from Equation 3 Substitute new equation for Equation 3 30

31 Forward Elimination: Step 2
Examine absolute values of second column, second row and below. Largest absolute value is and exists in row 3. Switch row 2 and row 3.

32 Forward Elimination: Step 2 (cont.)
Divide Equation 2 by and multiply it by 2.667, . Subtract the result from Equation 3 Substitute new equation for Equation 3 32

33 Back Substitution 33

34 Back Substitution Solving for a3 34

35 Back Substitution (cont.)
Solving for a2 35

36 Back Substitution (cont.)
Solving for a1 36

37 Gaussian Elimination with Partial Pivoting Solution
37

38 THE END

39 Determinant of a Square Matrix Using Naïve Gauss Elimination Example http://nm.MathForCollege.com
39

40 Theorem of Determinants
If a multiple of one row of [A]nxn is added or subtracted to another row of [A]nxn to result in [B]nxn then det(A)=det(B) 40

41 Theorem of Determinants
The determinant of an upper triangular, lower triangular or diagonal matrix [A]nxn is given by 41

42 Forward Elimination of a Square Matrix
Using forward elimination to transform [A]nxn to an upper triangular matrix, [U]nxn. 42

43 Example Using Naive Gaussian Elimination method, find the determinant of the following square matrix. 43

44 Finding the Determinant
After forward elimination steps . 44

45 THE END

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