Complex Conjugates: I'm Not Sure Why V^2?

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The discussion clarifies the relationship between the modulus of a complex number and its components. It explains that the equality VV* = |V|^2 holds true because it represents the sum of the squares of the real and imaginary parts. The confusion arises when attempting to equate V^2 with V_r^2 + V_i^2, as V^2 includes an additional term, 2iab, from the expansion. The modulus is defined as the length of the vector in the complex plane, aligning with the Pythagorean theorem. Thus, while |V|^2 equals V_r^2 + V_i^2, V^2 is not directly equal to this sum.
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Statement:
VV* = (V_r + jV_i)(V_r - jV_i) = V_{r}^{2} + V_{i}^{2} = |V|^{2}Question:
I am not sure why the second equality isn't written as, V_{r}^{2} + V_{i}^{2} = V^{2}?
 
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Well no. Let's try V = a + ib and square it to see what happens.

V^2 = VV = (a + ib)(a + ib) = a^2 + aib + iba + (ib)^2 = a^2 + 2iab - b^2

Notice the extra 2iab term.

The modulus of a complex number is the length of the "vector" in the 2-d complex plane. Such vectors have x-component equal to the real part and y-component equal to the imaginary part. So, according to the Pythagorean theorem, they have modulus sqrt(a^2 + b^2). Squaring this gives the desired a^2 + b^2.
 

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