2 (10ª rad²/s²) Wres 3.00 2.50 2.00 1.50 1.00 0.50 1.00 2.00 3.00 4.00 5.00 1/C (10³ F¯1)
Q: A series circuit consists of an ac power supply, a resistor, a 150.0 mH inductor, and a capacitor.…
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Q: An AC voltage source is connected to a resistor R = 1.20 102 Ω. The output from an AC voltage…
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Q: A capacitor of capacitance C is connected to an ac generator. What effect does increasing the…
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Q: A (2.9130x10^1)-F capacitor is connected to an AC source of EMF with a frequency of (3.818x10^2) Hz…
A: we have given C=2.9130×101×10-6F=2.9130×10-5Ffrequency f = 3.818×102Hzemf E=3.99×101V
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A: Given data The magnitude of the resistor’s resistance is R = 20 Ω. The output voltage is given as…
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Q: Consider an AC circuit consisting of an AC voltage source, a 30-W resistor, a 450-mF capacitor, and…
A: Given, resistance = 30 ohms capacitance = 450 mF inductance = 0.35 H
Q: A 60-Hz AC source with a voltage amplitude of 120 V powers a series RLC circuit. The capacitive…
A: Capacitance of capacitor C = 3 uF
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A: Given data: Resistance (R) = 10.0 Ω The rms current (Irms) = 7.38 A Required: The rms voltage, peak…
Q: An ac circuit includes a 155 Ω resistor in series with an 8.00 μF capacitor. The current in the…
A: The voltage across the resistor is given by,
Q: An AC voltage source and a resistor are connected in series to make up a simple AC circuit. If the…
A: Given, V=V0sin2πft Frequency f = 14.5 Hz We know the expression for voltage is V=IR
Q: A 58 Ω resistor and a 3.0 μF capacitor are connected in series to an ac source. Calculate the…
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Q: A 92 Ω resistor and a 8.5 μF capacitor are connected in series to an ac source. Part A) Calculate…
A: Given:- In an RC series circuit. The resistor is R = 92 ohm The capacitor C = 8.5 μF Find:-…
Q: Part a of the drawing shows a resistor and a charged capacitor wired in series. When the switch is…
A: Proper solution is provided given below with step by step.Explanation:Step 1: Step 2:
Q: An AC circuit consists of an alternating source potential, a resistor with a resistance 38.3 ohms,…
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Q: An L-R-C series circuit consists of a 2.70 μF capacitor, a 5.00 mH inductor, and a 50.0 Ω resistor…
A: Write the expression for the average power to determine the power factor.…
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A: We are given the initial voltage which is peak voltage. We are also given the final voltage in terms…
Q: An AC voltage source and a resistor are connected in series to make up a simple AC circuit. If the…
A: Given source frequency (f) is 14 Hz, The value of voltage V in the circuit is, V=V∘sin(2π×f×t) where…
Q: An AC voltage source is connected to a resistor R = 1.05 102 Ω. The output from an AC voltage…
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Q: A 2.7 μC capacitor is connected to a variable AC voltage supply (rms voltage 240 v, frequency f = 80…
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Q: A capacitor is connected across an ac generator whose frequency is 1100 Hz and whose peak output…
A: Irms=4.3A Peak voltage =200V Vrms=2002=141.42 Frequency =1100hz
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Q: A capacitor is connected across an ac generator whose frequency is 750 Hz and whose peak output…
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Q: An AC voltage source and a resistor are connected in series to make up a simple AC circuit. If the…
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Q: A capacitor is connected across an ac generator whose frequency is 1100 Hz and whose peak output…
A: V=200v f=1100hz Irms=4.3A Vrms=141.42v
Q: A series RCL circuit contains a 5.10-\mu F capacitor and a generator whose voltage is 11.0 V. At a…
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Q: A 87.0-μF capacitor is connected to a generator operating at a low frequency. The rms voltage of the…
A: Capacitive reactance at the rms current
Q: A series AC circuit contains a voltage source, a resistor, a capacitor, and an inductor. The voltage…
A: R = 44 ohm C = 0.068 F L = 1.1 H Vo = 110 volts ω = 65 rad/s
Q: A capacitor is connected across an ac generator whose frequency is 750 Hz and whose peak output…
A: Irms = 3.1A Vrms = peak voltage/ √(2) = 210 / √(2) = 148.5 Volt Frequency of ac generator (f) =…
You are analyzing an ac circuit that contains a solenoid and a capacitor in series with an ac source that has voltage amplitude 90.0 V and angular frequency ω. For different capacitors in the circuit, each with known capacitance, you measure the value of the frequency vres for which the current in the circuit is a maximum. You plot your measured values on a graph of ω2 res versus 1/C. The maximum current for each value of C is the same, you note, and equal to 4.50 A. Calculate the resistance and inductance of the solenoid.
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- An AC voltage source and a resistor are connected in series to make up a simple AC circuit. If the source voltage is given by V = Vo sin(2aft) and the source frequency is 14.0 Hz, at what time t will the current flowing circuit be 54.0% of the peak current? msFind the charge on the capacitor in an LRC-series circuit when L = q(t) = C What is the charge on the capacitor after a long time? C - h, R = 10 , C = 0.01 f, E(t) = 250 V, q(0) = 1 C, and i(0) = 0 A.An AC circuit consists of an alternating source potential, a resistor with a resistance 28.7 ohms, an inductor with an inductance 1.27 H, and a capacitor with a capacitance of 736 x 10-6 F. If the source potential has an rms voltage of 130 V and oscillates at a frequency of 60 Hz, what is the rms current in circuit?
- A capacitor is connected across the terminals of an ac generator that has a frequency of 490 Hz and supplies a voltage of 39 V. When a second capacitor is connected in parallel with the first one, the current from the generator increases by 0.18 A. Find the capacitance of the second capacitor. Note: The ac current and voltage are rms values and power is an average value unless indicated otherwise. Number 1 a pag Jadi UnitsWhat maximum current is delivered by an AC source with AVmax = 58.7 V and f = 72.1 Hz when connected across a 3.70-µF capacitor? Step 1 The applied AC source determines the voltage amplitude and frequency. We will compute the reactance of the capacitor at this frequency and use the definition of reactance to find the current. The impeding effect of capacitance C in an AC circuit with frequency f is called capacitive reactance. Capacitive reactance is defined by the following equation. 1 Xc = 2zfC For the maximum current I Imax Imax = = ΔV, = max Xc Substituting the expression for capacitive reactance and solving for the current gives ΔV. max Xc max = at applied voltage ΔV, AV max . (2πf) C V 2π mA. max' we have JH₂) ( Hz |x 10-6 F)An AC source operating at 60 Hz with a maximum voltage of 172 V is connected in series with a resistor (R = 1.9 k) and a capacitor (C = 2.5 μF). (a) What is the maximum value of the current in the circuit? A (b) What are the maximum values of the potential difference across the resistor and the capacitor? V AVR, max AVC C, max AVR AVC ΔV, = (c) When the current is zero, what are the magnitudes of the potential difference across the resistor, the capacitor, and the AC source? source = V V How much charge is on the capacitor at this instant? μ℃
- An LRC circuit consists of a 16.0-μF capacitor, a resistor, and an inductor connected in series across an ac power source of variable frequency that has a voltage amplitude of 21.0 V. You observe that when the power source frequency is adjusted to 49.5 Hz, the rms current through the circuit has its maximum value of 62.0 mA. What will be the rms current irms if you change the frequency of the power source to 60.0 Hz? irms AAn ac series circuit contains a voltage source with angular frequency of 200 rad/s and volatage amplitude V, a resistor with R=400 ohms and a capacitor with C= 1.00 x10^-5 F. If the voltage amplitude across the resistor is 40 V, what is the amplitude of the voltage across the capacitor?When connected to a 92.0-Hz AC source, an inductor has an inductive reactance of 31.0 Ω. What is the maximum current in this inductor if it is connected to an AC source that has an rms voltage of 120.0 V and a frequency of 112.0 Hz? A
- A 89.0-μF capacitor is connected to a generator operating at a low frequency. The rms voltage of the generator is 4.50 V and is constant. A fuse in series with the capacitor has negligible resistance and will burn out when the rms current reaches 15.0 A. As the generator frequency is increased, at what frequency will the fuse burn out?A capacitor is connected across the terminals of an ac generator that has a frequency of 360 Hz and supplies a voltage of 34 V. When a second capacitor is connected in parallel with the first one, the current from the generator increases by 0.30 A. Find the capacitance of the second capacitor. Note: The ac current and voltage are rms values and power is an average value unless indicated otherwise.An AC source i(t)=(20.0[mA])cos((10.0[rad/s])t) is connected to a 100[μF] capacitor , what is the potential through the capacitor?