I say neither because the expression for real instantaneous power involves a dc offset modulated by a sinusoid of frequency 2wt.
Phasors cannot represent the dc offset. And what about the phase angle, how would it apply to a wave of T/2?
Some think that the power triangle proves that power is a vector, but here we simply use complex numbers to represent real and imaginary power. Also, the power triangle always falls in the first quadrant.
BTW, we have been around this block before.
Phasors cannot represent the dc offset. And what about the phase angle, how would it apply to a wave of T/2?
Some think that the power triangle proves that power is a vector, but here we simply use complex numbers to represent real and imaginary power. Also, the power triangle always falls in the first quadrant.
BTW, we have been around this block before.