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Now examine [tex]\(| a + bi |\)[/tex] and complete the definition below.

The absolute value of any complex number [tex]\(a + bi\)[/tex] is the [tex]\(\square\)[/tex] from [tex]\((a, b)\)[/tex] to [tex]\((0, 0)\)[/tex] in the complex plane.

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GinnyAnsweridn
The absolute value of any complex number [tex]\(a + bi\)[/tex] is the Euclidean distance from [tex]\((a, b)\)[/tex] to [tex]\((0, 0)\)[/tex] in the complex plane.

To understand this, let's break it down:

1. Complex Number Representation: A complex number is often written as [tex]\(a + bi\)[/tex], where [tex]\(a\)[/tex] is the real part and [tex]\(b\)[/tex] is the imaginary part.

2. Magnitude or Absolute Value: The magnitude (or absolute value) of a complex number [tex]\(a + bi\)[/tex] is denoted as [tex]\(|a + bi|\)[/tex]. This value represents the distance of the point [tex]\((a, b)\)[/tex] in the complex plane from the origin [tex]\((0, 0)\)[/tex].

3. Euclidean Distance Formula: This distance can be calculated using the Euclidean distance formula:
[tex]\[ \text{Distance} = \sqrt{(a - 0)^2 + (b - 0)^2} = \sqrt{a^2 + b^2} \][/tex]

4. Conclusion: Thus, the absolute value of the complex number [tex]\(a + bi\)[/tex] is the Euclidean distance from the point [tex]\((a, b)\)[/tex] to the origin [tex]\((0, 0)\)[/tex] in the complex plane.

Putting it all together, the completed definition is:

The absolute value of any complex number [tex]\(a + bi\)[/tex] is the Euclidean distance from [tex]\((a, b)\)[/tex] to [tex]\((0, 0)\)[/tex] in the complex plane.
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