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Deck 15: Rc Circuits
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Question
Question
Question
What is the phase angle of the current in the circuit in Figure ?
A) 60°
B) 90°
C) 45°
D) 180°
Question
The true power delivered to the load in Figure is the power that does the work.
Question
The current in the circuit in Figure is:
A) 49.76 mA
B) 1.0 mA
C) 1.4 mA
D) 14 mA
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The reactive power in Figure 15-1 creates a loss in the form of heat.
Question
Question
The total current and phase angle in the circuit in Figure 15-3 expressed in polar form is:
A) 1.33, 222.6° mA
B) 4.47, 263.4° mA
C) 1.33, 2-22.6° mA
D) 4.93, 2-22.6° mA
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Question
Question
The voltage across the capacitor in Figure 15-3 is:
A) 11.7 V rms
B) 8.94 V rms
C) 7.07 V rms
D) n/XC
Question
If a capacitor generates heat, it is probably defective.
Question
The total current in the circuit in Figure is:
A) 1.33 mA
B) 49.3 mA
C) 13.3 mA
D) 4.47m
Question
The phase angle in the circuit in Figure 15-3 is:
A) 11.94°
B) -11.94°
C) -22.6°
D) 63.4°
Question
What is the sine of the phase angle in the circuit in Figure ?
A) 0.57
B) 1.0
C) 0.333
D) 0.707
Question
Question
What is the impedance of the circuit in Figure ?
A) 10 kΩ
B) 25 kΩ
C) 2.03 kΩ
D) 5.897 kΩ
Question
The voltage across the resistor in Figure 15-3 is:
A) 11.7 V rms
B) 7.07 V rms
C) n/XC
D) 4.47 V rms
Question
Which of the following expresses the impedance Z correctly in Figure in both rectangular and polar form?
A) 1.88-j.78, 2.03
-22.5°B) 1.88-j.78, 7.07 11ec81bf_ec6d_acdc_bc38_29a3f7414e20_TB34225555_11 45°
C) 1.88+j.78, 2.03 11ec81bf_ec6d_acdc_bc38_29a3f7414e20_TB34225555_11 -22.5°kΩ
D) 1.88-j.78, 2.03 11ec81bf_ec6d_acdc_bc38_29a3f7414e20_TB34225555_11 -22.5°kΩ
Question
Question
The True power delivered to the load in Figure 15-4 is:
A) I2R
B) 10.0 mW.
C) 4.46 mW
D) Both A and B are correct.
Question
Question
Question
What is the phase angle of the impedance in the circuit in Figure 15-4?
A) 45°
B) 94.4°
C) -45°
D) -60°
Question
Question
Question
The Reactive power in the capacitor in Figure 15-4 is:
A) 10.0 mW
B) 10.0 mVAR.
C) I2XC
D) Both B and C are correct.
Question
The phase angle between the source voltage and the current in Figure 15-5 is:
A) 22.5 degrees
B) 90 degrees.
C) approximately zero degrees
D) approximately 60 degrees.
Question
The total circuit current in Figure 15-4 is:
A) 0.707 mA
B) 1.41 mA
C) 44.6 mA
D) 10.04 mA
Question
Question
The Apparent power in the entire circuit in Figure 15-4 is:
A) 39.48 mVA
B) 14.1 mVA
C) 4.46 mVA
D) 19.9 mVA
Question
Question
The total circuit impedance in Figure is:
A) 22.4 kΩ
B) 4.46 kΩ
C) 7.07 kΩ
D) 0.144 kΩ
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See Figure 15-6. Which equation describes the total impedance ZT?
A) ZT = Z1 + ZT'
B) ZT = Z1 + Z3 + Z5 + Z6'
C) ZT = Z1 + Z2 " ZT')
D) ZT = Z1" Z2
Question
Question
Question
See Figure 15-6. Which one of these statements is true?
A) IS = I3
B) I3 = I4 + I6
C) I4 = I6
D) I3 = I2 + I5
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If E = 10 V 230° and IS = 5 A 210°, what is the total impedance ZT?
A) 32.1 Ω + j38.3 Ω
B) 0.47 Ω - j0.17 Ω
C) 1.88 Ω + j0.68 Ω
D) 38.3 Ω + j32.1 Ω
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Deck 15: Rc Circuits
1
The amount of total voltage applied to a capacitor affects its capacitive reactance.
False
2
The susceptance of a given capacitor decreases as frequency increases.
False
3
What is the phase angle of the current in the circuit in Figure ?
A) 60°
B) 90°
C) 45°
D) 180°
45°
4
The true power delivered to the load in Figure is the power that does the work.
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5
The current in the circuit in Figure is:
A) 49.76 mA
B) 1.0 mA
C) 1.4 mA
D) 14 mA
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6
Impedance is defined as the total opposition to current in an AC circuit.
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7
The term impedance, applied to a circuit containing capacitance and resistance, is the phasor result of the resistance and capacitive reactance.
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8
In a parallel capacitive circuit, all capacitors have the same amount of charge on them.
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9
The current always leads the voltage in a series resistor capacitor circuit by 45°.
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10
In a series capacitive circuit, the smallest capacitor has the largest voltage drop.
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11
The reactive power in Figure 15-1 creates a loss in the form of heat.
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12
A 10 mF capacitor will have more capacitive reactance than a 20 mF capacitor in a 60 Hz circuit.
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13
The total current and phase angle in the circuit in Figure 15-3 expressed in polar form is:
A) 1.33, 222.6° mA
B) 4.47, 263.4° mA
C) 1.33, 2-22.6° mA
D) 4.93, 2-22.6° mA
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14
The current leads the voltage in a series resistor capacitor circuit.
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15
A High-pass filter rejects higher frequencies and passes lower frequencies.
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16
The voltage across the capacitor in Figure 15-3 is:
A) 11.7 V rms
B) 8.94 V rms
C) 7.07 V rms
D) n/XC
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17
If a capacitor generates heat, it is probably defective.
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18
The total current in the circuit in Figure is:
A) 1.33 mA
B) 49.3 mA
C) 13.3 mA
D) 4.47m
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19
The phase angle in the circuit in Figure 15-3 is:
A) 11.94°
B) -11.94°
C) -22.6°
D) 63.4°
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20
What is the sine of the phase angle in the circuit in Figure ?
A) 0.57
B) 1.0
C) 0.333
D) 0.707
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21
A series circuit has an applied voltage of 100 V240° and a current of 1 A210°. Determine ZT) total impedance and express in rectangular form.
A) 100 Ω + j50 Ω
B) 100 Ω + j30 Ω
C) 64.3 Ω + j76.6 Ω
D) 86.6 Ω + j50 Ω
A) 100 Ω + j50 Ω
B) 100 Ω + j30 Ω
C) 64.3 Ω + j76.6 Ω
D) 86.6 Ω + j50 Ω
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22
What is the impedance of the circuit in Figure ?
A) 10 kΩ
B) 25 kΩ
C) 2.03 kΩ
D) 5.897 kΩ
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23
The voltage across the resistor in Figure 15-3 is:
A) 11.7 V rms
B) 7.07 V rms
C) n/XC
D) 4.47 V rms
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24
Which of the following expresses the impedance Z correctly in Figure in both rectangular and polar form?
A) 1.88-j.78, 2.03
-22.5°B) 1.88-j.78, 7.07 11ec81bf_ec6d_acdc_bc38_29a3f7414e20_TB34225555_11 45°
C) 1.88+j.78, 2.03 11ec81bf_ec6d_acdc_bc38_29a3f7414e20_TB34225555_11 -22.5°kΩ
D) 1.88-j.78, 2.03 11ec81bf_ec6d_acdc_bc38_29a3f7414e20_TB34225555_11 -22.5°kΩ
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25
Which of the following is the reference vector for parallel RC circuits?
A) V
B) R
C) I
D) C
A) V
B) R
C) I
D) C
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26
The True power delivered to the load in Figure 15-4 is:
A) I2R
B) 10.0 mW.
C) 4.46 mW
D) Both A and B are correct.
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27
Impedance equals the vector sum of:
A) R and I
B) R and XC
C) R and V
D) R and C.
A) R and I
B) R and XC
C) R and V
D) R and C.
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28
Express the impedance of a 10 µF capacitor at 60 Hz in rectangular form.
A) 0 Ω + j265.3 Ω
B) 265.3 Ω - j0 Ω
C) 0 Ω - j0.00377 Ω
D) 0 Ω - j265.3 Ω
A) 0 Ω + j265.3 Ω
B) 265.3 Ω - j0 Ω
C) 0 Ω - j0.00377 Ω
D) 0 Ω - j265.3 Ω
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29
What is the phase angle of the impedance in the circuit in Figure 15-4?
A) 45°
B) 94.4°
C) -45°
D) -60°
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30
What is the susceptance of a 100 µF capacitor at 1000 Hz?
A) 104 S
B) 0.63 S
C) 1.59 S
D) 10-4 S
A) 104 S
B) 0.63 S
C) 1.59 S
D) 10-4 S
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31
What is the total current in a parallel circuit consisting of a 1.27 µF capacitor, and a 50 Ω resistor, with a 2.5 kHz, 10 Vac power supply?
A) 282 mA
B) 200 mA
C) 141 mA
D) 400 mA
A) 282 mA
B) 200 mA
C) 141 mA
D) 400 mA
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32
The Reactive power in the capacitor in Figure 15-4 is:
A) 10.0 mW
B) 10.0 mVAR.
C) I2XC
D) Both B and C are correct.
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33
The phase angle between the source voltage and the current in Figure 15-5 is:
A) 22.5 degrees
B) 90 degrees.
C) approximately zero degrees
D) approximately 60 degrees.
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34
The total circuit current in Figure 15-4 is:
A) 0.707 mA
B) 1.41 mA
C) 44.6 mA
D) 10.04 mA
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35
In a series RC circuit, impedance is:
A) always smaller than R
B) larger than R.
C) the same as R
D) none of the above.
A) always smaller than R
B) larger than R.
C) the same as R
D) none of the above.
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36
The Apparent power in the entire circuit in Figure 15-4 is:
A) 39.48 mVA
B) 14.1 mVA
C) 4.46 mVA
D) 19.9 mVA
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37
The frequency at which the capacitive reactance equals the resistance in a low-pass or high-pass filter is called
.
A) unity-gain frequency
B) gain bandwidth product
C) generator frequency
D) cutoff frequency
.
A) unity-gain frequency
B) gain bandwidth product
C) generator frequency
D) cutoff frequency
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38
The total circuit impedance in Figure is:
A) 22.4 kΩ
B) 4.46 kΩ
C) 7.07 kΩ
D) 0.144 kΩ
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39
What is the impedance of a RC circuit consisting of a 56 kΩ resistor in series with a 0.033 µF capacitor ata frequency of 450 Hz?
A) 57,016 Ω
B) 45,270 Ω
C) 66,730 Ω
D) 10,730 Ω
A) 57,016 Ω
B) 45,270 Ω
C) 66,730 Ω
D) 10,730 Ω
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40
In a two-branch parallel RC circuit, impedance is:
A) less than either branch's opposition to current.
B) more than the resistive branch value.
C) more than the capacitive reactance branch value.
D) equal to the value of R.
A) less than either branch's opposition to current.
B) more than the resistive branch value.
C) more than the capacitive reactance branch value.
D) equal to the value of R.
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41
Convert the following complex number from polar form to rectangular form: 40 V 2120°
A) 20 + j34.6V
B) -80 - j34.6V
C) 80 + j34.6V
D) -20 + j34.6V
A) 20 + j34.6V
B) -80 - j34.6V
C) 80 + j34.6V
D) -20 + j34.6V
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42
Convert the following complex number from rectangular form to polar form: 8 + j6
A) 10 2- 53.1°
B) 10 236.9°
C) 10 253.1°
D) 10 2- 36.9°
A) 10 2- 53.1°
B) 10 236.9°
C) 10 253.1°
D) 10 2- 36.9°
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43
Which one of the following values is equivalent to 5 + j3) 4 - j6)?
A) 38 + j18
B) 2 + j18
C) 38 - j18
D) 2 - j18
A) 38 + j18
B) 2 + j18
C) 38 - j18
D) 2 - j18
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44
See Figure 15-6. Which equation describes the total impedance ZT?
A) ZT = Z1 + ZT'
B) ZT = Z1 + Z3 + Z5 + Z6'
C) ZT = Z1 + Z2 " ZT')
D) ZT = Z1" Z2
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45
In an RC circuit, true power equals:
A) VS × I
B) I2 R
C) VT × RT
D) P
A) VS × I
B) I2 R
C) VT × RT
D) P
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46
Multiply the following complex numbers: 25 2-36.9°) 14 267°)
A) 350 230.1°
B) 350 2103.9°
C) 11 230.1°
D) 350 2-30.1°
A) 350 230.1°
B) 350 2103.9°
C) 11 230.1°
D) 350 2-30.1°
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47
See Figure 15-6. Which one of these statements is true?
A) IS = I3
B) I3 = I4 + I6
C) I4 = I6
D) I3 = I2 + I5
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48
Which one of the following rectangular values is equivalent to the polar form 20 255°?
A) 16.38 + j11.47
B) 11.47 + j16.38
C) 16.38 - j11.47
D) 11.17 - j16.38
A) 16.38 + j11.47
B) 11.47 + j16.38
C) 16.38 - j11.47
D) 11.17 - j16.38
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49
Multiply the following complex numbers: 5 + j3) 2 - j4)
A) 10 - j14
B) 22 + j14
C) 22 - j14
D) 22 + j26
A) 10 - j14
B) 22 + j14
C) 22 - j14
D) 22 + j26
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50
If the voltage v = 50 sin500t - 75° is applied across a 25 Ω resistor, which equation describes the resistor current?
A) 2 sin500t - 75°
B) 2 sin20t - 3°
C) 2 cos500t - 75°
D) 1250 sin500t - 75°
A) 2 sin500t - 75°
B) 2 sin20t - 3°
C) 2 cos500t - 75°
D) 1250 sin500t - 75°
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51
The time required for a phasor to go through 2n radians is the of the sine wave.
A) period
B) angle
C) frequency
D) domain
A) period
B) angle
C) frequency
D) domain
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52
If E = 10 V 230° and IS = 5 A 210°, what is the total impedance ZT?
A) 32.1 Ω + j38.3 Ω
B) 0.47 Ω - j0.17 Ω
C) 1.88 Ω + j0.68 Ω
D) 38.3 Ω + j32.1 Ω
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53
Divide the following complex numbers: 100 227°) / 33 2-14.3°)
A) 0.33 212.7°
B) 3 241.3°
C) 3 212.7°
D) 0.33 241.3°
A) 0.33 212.7°
B) 3 241.3°
C) 3 212.7°
D) 0.33 241.3°
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54
Which one of the following polar values is equivalent to 30 + j40?
A) 70 236.9°
B) 70 253.1°
C) 50 253.1°
D) 50 236.9°
A) 70 236.9°
B) 70 253.1°
C) 50 253.1°
D) 50 236.9°
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55
Subtract the following complex numbers: 15 + j15) - 10 + j8)
A) 5 + j7
B) 25 + j23
C) 5 - j7
D) 25 - j7
A) 5 + j7
B) 25 + j23
C) 5 - j7
D) 25 - j7
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56
In an RC circuit, the power factor is referred to as:
A) apparent power factor
B) true power factor
C) leading power factor
D) lagging power factor
A) apparent power factor
B) true power factor
C) leading power factor
D) lagging power factor
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57
Divide the following complex numbers: 10 + j5) / 2 + j4)
A) 40 + j30
B) 40 - j30
C) 2 - j1.5
D) 2 + j1.5
A) 40 + j30
B) 40 - j30
C) 2 - j1.5
D) 2 + j1.5
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58
Convert the following complex number from rectangular form to polar form: 40 + j30V
A) 50 V 2-36.87°
B) 40 V 2-53.1°
C) 40 V 245°
D) 50 V 236.87°
A) 50 V 2-36.87°
B) 40 V 2-53.1°
C) 40 V 245°
D) 50 V 236.87°
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59
Convert the following complex number from polar form to rectangular form: 200 2-45°
A) 100 -j100
B) 141 -jl41
C) 100 +j100
D) 141 +jl41
A) 100 -j100
B) 141 -jl41
C) 100 +j100
D) 141 +jl41
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60
Add the following complex numbers: 40 + j10 and 25 - j7
A) 15 + j3
B) 65 - j3
C) 65 + jl7
D) 65 + j3
A) 15 + j3
B) 65 - j3
C) 65 + jl7
D) 65 + j3
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61
Which one of the following phasor domain expressions is equivalent to the time domain 50 sinY + 15°)?
A) 35.35 215°
B) 50 215°
C) 70.7 2-15°
D) 70.7 215°
A) 35.35 215°
B) 50 215°
C) 70.7 2-15°
D) 70.7 215°
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62
Subtract the following complex numbers: 20 2-30° - 10 230°
A) 17.3 260°
B) 17.3 2-60°
C) 10 20°
D) 10 2360°
A) 17.3 260°
B) 17.3 2-60°
C) 10 20°
D) 10 2360°
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63
The phase shift oscillator uses equal component RC networks that produce a required degree phase shift.
A) four, 45
B) three, 180
C) four, 90
D) three, 90
A) four, 45
B) three, 180
C) four, 90
D) three, 90
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64
The j operator is considered a:
A) rotational vector
B) complex operator
C) rotational operator
D) polar vector
A) rotational vector
B) complex operator
C) rotational operator
D) polar vector
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65
Multiply the following complex numbers: 1000 2-30° × 200 2-20°
A) 1200 250°
B) 200,000 2-50°
C) 200,000 250°
D) 800 2-50°
A) 1200 250°
B) 200,000 2-50°
C) 200,000 250°
D) 800 2-50°
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66
Add the following complex numbers: 75 + j18 and 50 - j9
A) 125 + j27
B) 125 + j9
C) 125 - j27
D) 25 - j9
A) 125 + j27
B) 125 + j9
C) 125 - j27
D) 25 - j9
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67
In the complex plane, the horizontal is called the and the vertical is called the .
A) angular axis, quadrant axis
B) real axis, imaginary axis
C) phasor axis, wavelength
D) imaginary axis, real axis
A) angular axis, quadrant axis
B) real axis, imaginary axis
C) phasor axis, wavelength
D) imaginary axis, real axis
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68
Divide the following complex numbers: 500 240° ÷ 10 215°
A) 50 2-25°
B) 250 215°
C) 250 2-15°
D) 50 225°
A) 50 2-25°
B) 250 215°
C) 250 2-15°
D) 50 225°
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Unlock for access to all 68 flashcards in this deck.
Unlock Deck
k this deck
Unlock Deck
Unlock for access to all 68 flashcards in this deck.
