Delmar's Standard Textbook Of Electricity
7th Edition
ISBN: 9781337900348
Author: Stephen L. Herman
Publisher: Cengage Learning
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Textbook Question
Chapter 20, Problem 1PP
Capacitive Circuits
Fill in all the missing values. Refer to the formulas that follow.
| Capacitance |
|
Frequency |
| 38
|
60 Hz | |
| 78.8
|
400 Hz | |
| 250 pF | 4.5
|
|
| 234
|
10 kHZ | |
| 240
|
50 Hz | |
| 10
|
36.8
|
|
| 560 nF | 2 MHz | |
| 15
|
60 Hz | |
| 75 nF | 560
|
|
| 470 pF | 200 kHz | |
| 6.8
|
400 Hz | |
| 34
|
450
|
Expert Solution & Answer
To determine
The missing values.
Answer to Problem 1PP
| Capacitance | Xc | Frequency |
| 38 µF | 69.8 Ω | 60 Hz |
| 5.05 µF | 78.8 Ω | 400 Hz |
| 250 pF | 4.5 kΩ | 141.47 kHz |
| 234 µF | 0.068 Ω | 10 kHz |
| 13.26 µF | 240 Ω | 50 Hz |
| 10 µF | 36.8 Ω | 432.48 Hz |
| 560 nF | 0.1421 Ω | 2 MHz |
| 176.8 nF | 15 kΩ | 60 Hz |
| 75 µF | 560 Ω | 3.78 Hz |
| 470 pF | 1.69 kΩ | 200KHz |
| 58 nF | 6.8 kΩ | 400Hz |
| 34 µF | 450 Ω | 10.4 Hz |
Explanation of Solution
Description:
We are given the following formulae,
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Students have asked these similar questions
The attached image shows a circuit with an AC voltage source, a resistor, inductor, and capacitor connected in series. The circuit has the following characteristics:
Resistor resistance: 10 ohm
Capacitor capacitance: 0.05 F
Inductor inductance: 13 H
Current Amplitude: 4 A
Voltage amplitude across the source: 60 V
Frequency at the source: 0.3 Hz
Voltage amplitude across the resistor: 35 V
Voltage amplitude across the capacitor: 37 V
Voltage amplitude across the inductor: 80 V
(a) Calculate the RMS voltages from the amplitudes above. From the RMS voltages across the capacitor, inductor and resistor, calculate the RMS voltage of the AC source.
Hint: Vrms = V0/sqrt(2)
Vrms = sqrt( (Vrms,R)2 + (Vrms, L - Vrms, C)2 )
(b) Calculate the RMS value of the current
(c) Using the resistance, capacitance, inductance, and the frequency of the AC voltage, calculate the impedance Z. From this, and the previously measured value of Vrms, find the RMS value of the current in the circuit.
Xc = 1/2πfC
Xc = 1593
f = 100Hz
I need help finding Capacitance
The capacitance and a resistance are connected in parallel. This combination is then placed in series with an inductance. Compute the impedance when f= 60 Hz, R = 136 Ω, L = 243 mH, and C = 29 μF
Note: Box the final answer. Do not answer in polar form or rectangular form. Use amplitude (polar) like in the photo. If applicable, round off all answers to 5 decimal places.
Chapter 20 Solutions
Delmar's Standard Textbook Of Electricity
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