It's not just wiki. It is everywhere. X stands for reactance. The Impedance of a reactance X is jX. Check it out.
Not everywhere, elsewhere has got it wrong too. If you don't give it a sign and a "j", then the description of the reactance is incomplete.
I've been following this thread with interest and some amusement.
Mostly I think Ratch has made some very good points and defended them well, however I think it's time to put the record straight on this one.
Complex (circuit) analysis is only one way to analyse circuits, allbeit a very convenient one.
If you use complex quantities you have to go the whole hog and employ complex voltage current and admittance as well. Older engineers will always talk of 'complex impedance' to emphasise the point.
Impedance, admittance and reactance are not inherently complex quantities.
They can be specified using a real modulus and a real phase angle and the calculations performed by trigonometry. Not is single i, j or k will be seen.
Alternatively complex notation can be used, but again here there is a choice as we can either use the R+jX format or use the e
jα.e
jωt format. The latter comes into its own in calculus based operations since exponentials make differentiation and integration particularly easy.
So it is possible to specify a circuit, say 3 ohms and 7.96 millihenrys with 60 (real) volts at 50 cycles/second applied.
The resistance is 3 ohms, the reactance is 2.5 ohms, the impedance is 3.91 ohms the phase angle is 39°48' and the current is 15.4 amps.
These are all real (measurable) quantities. Not a single imaginary one is needed, or directly measurable.
I will leave it up to those who like complex notation to put these figures into that form.
go well