I Finding Real and Imaginary Parts of the complex wave number

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In Griffiths' fourth edition, the complex wave number is discussed in section 9.4.1, with specific equations for its real and imaginary parts. The real part, denoted as k+, corresponds to k, while the imaginary part, κ (kappa), is denoted as k-. The inquiry focuses on why Griffiths chose the positive root of X when determining k+. The reasoning is that selecting the positive sign ensures k remains real, as a negative root would yield an imaginary value. This clarification emphasizes the importance of maintaining real values in the context of electromagnetic wave propagation in conductors.
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In Griffiths fourth edition, page 413, section 9.4.1. Electromagnetic Waves in Conductors, the complex wave number is given according to equation (9.124).

Capture.JPG


Calculating the real and imaginary parts of the complex wave number as in equation (9.125) lead to equations (9.126). I have done the derivation by myself and I present it here as follows:

Complete Derivation.jpg


Where,
k+ is the real part of the complex wave number = k in Griffiths.
k- is the imaginary part of the complex wave number = κ (kappa) in Griffiths.

My question here is mathematical rather than physical, why did Griffiths took the positive sign of the first root of X (since X here has two roots when evaluating the polynomial of 2nd degree) when finding the real part k+ of the complex wave number?

Any help is deeply appreciated! Many Thanks!
 

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The positive sign must be taken for k to be real. Taking the negative sign would result in a negative value and hence k would be imaginary since the square root of a negative number is imaginary.
 
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Thanks @Mmm_Pasta so much
 

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