9. The two complex numbers V and W represent two reactances connected in series. Calculate the total reactance by finding their sum. AF3+j4 B=4-j5 C = 5-j2 D=1-j3 E=2+13F4+j1 10. The complex numbers V and W represent two force vectors. Place them on an Argand diagram and calculate the difference between them. 11. Use your given values of V and W to represent the reactances Z₁, Z2 (as shown in the circuit diagram). Calculate the current flowing in the circuit in polar form if the voltage is v = 1220° and V i = ZTotal
9. The two complex numbers V and W represent two reactances connected in series. Calculate the total reactance by finding their sum. AF3+j4 B=4-j5 C = 5-j2 D=1-j3 E=2+13F4+j1 10. The complex numbers V and W represent two force vectors. Place them on an Argand diagram and calculate the difference between them. 11. Use your given values of V and W to represent the reactances Z₁, Z2 (as shown in the circuit diagram). Calculate the current flowing in the circuit in polar form if the voltage is v = 1220° and V i = ZTotal
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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9. The two complex numbers V and W represent two reactances connected in series.
Calculate the total reactance by finding their sum.
AF 3+j4 B = 4-j5 C = 5-j2 D=1-j3
E = 2 +j3FF"
FF 4+j1
3
of 4
10. The complex numbers V and W represent two force vectors. Place them on an Argand diagram and
calculate the difference between them.
11. Use your given values of V and W to represent the reactances Z₁, Z₂ (as shown in the circuit
diagram).
Calculate the current flowing in the circuit in polar form if the voltage is v = 1220° and
V
i =
ZTotal
Z₁
Z₂
o
J
(¹) ENG
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60
11:16 PM
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