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The rule gives a neat formula for solving a linear system A bit of notation first. We denote by the square matrix obtained by replacing the i-th column.

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Presentation on theme: "The rule gives a neat formula for solving a linear system A bit of notation first. We denote by the square matrix obtained by replacing the i-th column."— Presentation transcript:

1 The rule gives a neat formula for solving a linear system A bit of notation first. We denote by the square matrix obtained by replacing the i-th column of Let Then CRAMER’S RULE

2 The proof is not too hard, but let’s do an example first.

3 Just trust me that Then Cramer’s rule tells us that:

4 Now to the proof. We have We need a simple fact of matrix algebra. Let

5 be matrices such that the product Let Then

6

7 A nice formula for

8 The equation

9 Your textbook calls the number

10

11 DETERMINANTS AND AREAS/VOLUMES This part of the textbook Is rather easy and is left for work in the tutorials. The important facts are theorems 9 and 10: (pp. 180 and 182 resp.) Theorem 9 says that the columns of a 2x2 or 3x3 matrix determine a parallelogram/paralleopiped whose area/volume is det A Theorem 10 says that a linear transformation with standard matrix A alters areas/volumes by a factor of det A.

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