162 GEOMETRY AND TRIGONOMETRYProblem 19. Use harmonic synthesis to con-
struct the complex current given by:i 1 =10 sinωt+4 sin 2ωtamperes.Current i 1 consists of a fundamental compon-
ent, 10 sinωt, and a second harmonic component,
4 sin 2ωt, the components being initially in phase
with each other. The fundamental and second har-
monic are shown plotted separately in Fig. 15.33.
By adding ordinates at intervals, the complex wave-
form representingi 1 is produced as shown. It is noted
that if all the values in the negative half-cycle were
reversed then this half-cycle would appear as a mir-
ror image of the positive half-cycle about a vertical
line drawn through time,t=T/2.Problem 20. Construct the complex current
given by:i 2 =10 sinωt+4 sin(
2 ωt+π
2)
amperes.The fundamental component, 10 sinωt, and the sec-
ond harmonic component, having an amplitude of
4 A and a phase displacement of
π
2radian leadingFigure 15.33(i.e. leading 4 sin 2ωtbyπ
2radian orT/8 seconds),
are shown plotted separately in Fig. 15.34. By adding
ordinates at intervals, the complex waveform fori 2 is
produced as shown. The positive and negative half-
cycles of the resultant waveform are seen to be quite
dissimilar.
From Problems 18 and 19 it is seen that when-
ever even harmonics are added to a fundamental
component:(a) if the harmonics are initially in phase, the nega-
tive half-cycle, when reversed, is a mirror image
of the positive half-cycle about a vertical line
drawn through time,t=T/2.(b) if the harmonics are initially out of phase with
each other, the positive and negative half-cycles
are dissimilar.These are features of waveforms containing the
fundamental and even harmonics.Problem 21. Use harmonic synthesis to con-
struct the complex current expression given by:i= 32 +50 sinωt+20 sin(
2 ωt−π
2)
mA.