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Let's say you were given a 3x3 matrix of values and only a particular column changes values between iterations.

On Step 1 I have X:

[2.0, 4.6, 3.4]
[3.2, 6.7, 4.1]
[2.1, 1.4, 5.3]

Whose determinant is -11.476

Now on Step 2 I have X, with the second column populated with new values.

[2.0, 6.5, 3.4]
[3.2, 3.4, 4.1]
[2.1, 0.8, 5.3]

Is there a quick way to calculate the determinant of this matrix given the previous state of the matrix and its previous determinant? I want to preserve some of the information known at the previous state. Only columns change on each iteration.

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Note that if you're using floating point and the results are inexact, there's a good chance that you will accumulate error, possibly very large error over time, by using such a method. If it matters you need to do some analysis on whether/how error might accumulate and determine if it affects your usage, and if so, how you might compensate. –  R.. Dec 5 '13 at 19:04

2 Answers 2

up vote 2 down vote accepted

If it's always the same column that changes you can use Laplace expansion with respect to that column.

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If your first and third columns are constant and only second column varies, then you can transform this into a formula:

[2.0, a, 3.4]
[3.2, b, 4.1]
[2.1, c, 5.3]

= -a x [3.2, 4.1][2.1, 5.3] + b x [2.0, 3.4][2.1, 5.3] - c x [2.0, 3.4][3.2, 4.1]

= -8.35 x a + 3.46 x b + 2.68 x c

So now you have a formula that you can use.

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