Understanding the Determinant of the Product of Two 2x2 Matrices

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The discussion focuses on proving that the determinant of the product of two 2x2 matrices equals the product of their individual determinants. A user demonstrates this by calculating the determinants of two specific matrices and their product, concluding that both calculations yield the same result. Another participant suggests generalizing the matrices by using variables instead of specific numbers for a more formal proof. The initial calculations appear correct, affirming the user's understanding of the determinant property. The conversation emphasizes the importance of a general approach in mathematical proofs.
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What is the following question asking?

Question:

Prove that the determinant of the product of two general 2x2 matrces is the product of their determinants.


What I think is that I should come up with two 2x2 matrices.
1 2 2 3 12 15
3 4 and 5 6 multiply them together and get 26 33

The determinant of the product matrix is six. The determinat of the first matrix is -2 and the second one is -3. Multiply -2 times -3 and that is 6. So I proved that the determinant of the product of the two matrices is the product of their determinants.

Is this right?
 
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here are the matrices

1 2 (1)
3 4

2 3
5 6 (2)

12 15
26 33 (product matrix)
 
Originally posted by ilikephysics
What I think is that I should come up with two 2x2 matrices.
1 2 2 3 12 15
3 4 and 5 6 multiply them together and get 26 33
...
Is this right?
You should probably be more general (let the elements be letters instead of numbers, and then show it). It looks like you've got the right idea, though.
 

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