Three identical impedances Z Δ = 30 ∠ 30 ° Ω are connected in Δ to a balanced three-phase 208-V source by three identical line conductors with impedance Z L = ( 0.8 + j 0.6 ) Ω per line. (a) Calculate the line-to-line voltage at the load terminals. (b) Repeat part (a) when a s-connected capacitor bank with reactance ( − j 60 ) Ω per phase is connected in parallel with the load.
Three identical impedances Z Δ = 30 ∠ 30 ° Ω are connected in Δ to a balanced three-phase 208-V source by three identical line conductors with impedance Z L = ( 0.8 + j 0.6 ) Ω per line. (a) Calculate the line-to-line voltage at the load terminals. (b) Repeat part (a) when a s-connected capacitor bank with reactance ( − j 60 ) Ω per phase is connected in parallel with the load.
Solution Summary: The line-to-line voltage at the loads terminals is 203.1angle 0.649°V. In Delta -connected network, the phase current is equal to
Three identical impedances
Z
Δ
=
30
∠
30
°
Ω
are connected in
Δ
to a balanced three-phase 208-V source by three identical line conductors with impedance
Z
L
=
(
0.8
+
j
0.6
)
Ω
per line. (a) Calculate the line-to-line voltage at the load terminals. (b) Repeat part (a) when a s-connected capacitor bank with reactance
(
−
j
60
)
Ω
per phase is connected in parallel with the load.
The signal x(t) is band-limited to 40 Hz and is modulated with a 320 Hz carrier, which generates y(t). This signal is then processed by a quadratic-law device that produces the output g(t) = y²(t).
a) What is the minimum sampling rate for x(t) that avoids aliasing?b) What is the minimum sampling rate for y(t) that avoids aliasing?c) What is the minimum sampling rate for g(t) that avoids aliasing?
1) Applying the bit mask to toggle the bits in positions 0 through 3 of the register AL, while passing through the bits in positions 7 through 4.What is the binary value of the AL after performing the following two instructions?MOV AL, 10111011 B;XOR AL, mask;
Need a solu
Chapter 2 Solutions
MindTap Engineering, 1 term (6 months) Printed Access Card for Glover/Overbye/Sarma's Power System Analysis and Design, 6th
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