Physics Laboratory Manual
4th Edition
ISBN: 9781133950639
Author: David Loyd
Publisher: Cengage Learning
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Chapter 36, Problem 5PLA
50639-36-5PLA AID: 1825 | 11/04/2020
To determine
The rms current in the inductor.
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In the previous problem, you tried to draw a circuit diagram for a series circuit containing a R = 100-ohm resistance, a coil with L = 0.1 H inductance, and a C = 20-μμF capacitor connected across a 110-V, 60 Hz voltage source. What would be the voltmeter readings across R, L, and C? (Show your work on scratch papers).
Show your work in calculating the resonance frequency of a circuit containing an inductance L = 40.0 mH and a capacitance C = 600 pF
A series RLC resonant circuit has an inductance equal to 5 mH, and capacitance equals to 4.7 uF. Determine the new value of the capacitance needed to double the value of the resonant frequency? Show your work.
a) 175 uF
b) 2.35 uF
c) 18.8 uF
d) 9.4 uF
An AC circuit has a frequency of 400 Hz. A 16 Ω resistor, a 22 mH inductor, and a 16.6 uF capacitor are connected in series. What is the total impedence of the circuit? Show your work.
a) 1.357 Ω
b) 5.3173 Ω
c) 25.173 Ω
d) 35.173 Ω
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- You plan tochange the frequency of the generator in this circuit to produce aphase angle of smaller magnitude. The resistor is still 175 Ω, theinductor is 90.0 mH, the capacitor is 15.0 mF, and the rms voltage is 120.0 V. (a) Should you increase or decrease the frequency?Explain. (b) Find the frequency that gives a phase angle of -22.5°.(c) What is the rms current in the circuit at the frequency foundin part (b)arrow_forwardPls help with the following, thank you Consider the circuit sketched in the figure (Figure 1). The source has a voltage amplitude of 240 V, R� = 140 Ω, and the reactance of the capacitor is 600 Ω. The voltage amplitude across the capacitor is 650 V. Part A. What is the current amplitude in the circuit? Express your answer in amperes. Part B. What is the impedance? Express your answer in ohms. Part C. What two values can the reactance of the inductor have? Express your answers in ohms separated by comma.arrow_forwardFor the circuit shown—consisting of a 5.1 ohm resistor, 180 × 10-6 H inductor, 85 × 10-6 F capacitor, and 4.5 Vrms AC source oscillating at 45 Hz: Part (a) What is the impedance? Z = Ω Part (b) What is the IrmsIrms under these conditions? Irms = Aarrow_forward
- (circuit setup in the image attached) f = 100 Hz, L= 8.2 mH, Vp = 10 V (AC) a) If the voltage across the resistor is 4.33 V, voltage across the inductor is 3.23 V, and the current (rms) is 0.42 A, why do these values alone disagree with Kirchoff's rule? b) How can Kirchoff's rule be correctly applied to the circuit? (i.e. show that it is actually still valid)arrow_forwardPlease show your detailed solution Number 40 What is the capacitive reactance of a circuit comprised of a 65.0-μF capacitor and a 50.0-Hz generator? A. 145Ω C. 72.5Ω B. 97.6Ω D. 49.0 Ωarrow_forwardI need help with Part C. Answers to Part A and B are below to assist. Part A: Calculate the oscillation frequency of the circuit. (2.64 Hz) Part B: Calculate the energy stored in the capacitor at time t=0mst=0ms (the moment of connection with the inductor). (0.137 J)arrow_forward
- An RLC parallel circuit contains a resistor with a resistance of 16 Ω, an inductor with an inductive resistance of 8 Ω, and a capacitor with a conductive resistance of 20 Ω. What is the total impedence of this circuit? Show your work. a) Z= 20.5 Ω b) Z= 10.24 Ω c) Z= 5.12 Ω d) Z= 2.56 Ωarrow_forwardA series RLC circuit is constructed using a 100 Ω resistor, 8 H inductor and 8 × 10−6 F capacitor. What is the resonant frequency for this circuit? Explain the reasoning behind your selectionin detail.A) 50 HzB) 40 HzC) 30 HzD) 20 HzE) 10 Hzarrow_forwardWhich one of the phasor diagrams shown below best represents a series LRC circuit driven at resonance? Select one.arrow_forward
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