A capacitor is connected to a 16 kHz oscillator. The peak current is 62 mA when the rms voltage is 6.2 V
Q: The capacitance in a series RCL circuit is C₁ = 3.7 µF, and the corresponding resonant frequency is…
A: C1 = 3.7 μFLet the inductance = L The resonant freuquency (f) = 8900 Hz
Q: A sinusoidal voltage Δv = (60.0 V)sin(180t) is applied to a series RLC circuit with L = 50.0…
A:
Q: A series circuit consists of an ac power supply, a resistor, a 150.0 mH inductor, and a capacitor.…
A:
Q: An AC voltage source is connected to a resistor R = 1.20 102 Ω. The output from an AC voltage…
A:
Q: In a series RLC circuit, The source voltage Vs = 120Vac. The values of the components are: R1= 50.0…
A:
Q: A resistor dissipates 2.00 W when the rms voltage of the emf is 10.0 V. At what rms voltage will the…
A:
Q: An LRC circuit consists of a 17.0-microF capacitor, a resistor, and an inductor connected in series…
A: The current in series RLC circuit is maximum at resonance frequency and it is given as Imax, rms…
Q: What maximum current is delivered by an AC source with AV, = 45.4 V and f = 79.6 Hz when connected…
A: Maximum current delivered by AC source is 84 mA
Q: What maximum current is delivered by an AC source with ΔVmax = 42.0 V and f = 80.0 Hz when connected…
A:
Q: When an AC source is connected across a 20.0 resistor, the output voltage is given by Av = (120…
A: Given data The magnitude of the resistor’s resistance is R = 20 Ω. The output voltage is given as…
Q: A 10-µF capacitor is plugged into a 110 V-rms 60-Hz voltage source, with an ammeter in series. What…
A:
Q: What is the impedance of this circuit?
A:
Q: onsider a simple capacitive touch sensor comprised of a resistor with resistance R=1.57 MΩ and a…
A: Solution provided
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
Q: Consider an AC voltage source that produces a voltage given by V = Vmax sin(2πft), with Vmax = 16 V…
A: Step 1: Given voltage V(t) produced by voltage source is Vmax=16V,f=5.2Hz…
Q: When an AC source is connected across a 10.0-N resistor, the rms current in the resistor is 7.38 A.…
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: A capacitor is connected across an ac generator whose frequency is 1100 Hz and whose peak output…
A:
Q: An 19.0-µF capacitor is connected across an AC source with Vmax = 80.0 V oscillating at 45.0 Hz.…
A: C = 19μF Vmax = 80 V f = 45 Hz
Q: An L-R-C series circuit has R = 400 Ω, L = 0.600 H, and C = 5.00 * 10^-8 F. The voltage amplitude of…
A: Inductance L=0.600 H Resistance R = 400 Ohm Capacitor C =5×10-8 F . Voltage = 80 V find : average…
Q: A 96.0-μF capacitor is connected to a generator operating at a low frequency. The rms voltage of the…
A: Capacitance, C = 96 μFVrms = 5.90 VIrms = 19 AFrequency, f = ?
Q: An AC source with ΔVmax = 135 V and f = 40.0 Hz is connected between points a and d in the figure.…
A:
Q: An AC circuit consists of an alternating source potential, a resistor with a resistance 38.3 ohms,…
A:
Q: When an AC source is connected across a 25.0 2 resistor, the output voltage is given by AV = (130…
A: (a) Peak voltageVm (b) rms voltageVrms(c) rms currentIrms Given, ResistanceR=25.0 ΩOutput…
Q: A 6.0-µF capacitor is connected to an ac signal with a frequency of 60 Hz. If the maximum voltage…
A: Capacitive reactance = 440 ohm
Q: An AC voltage source is connected to a resistor R = 1.05 102 Ω. The output from an AC voltage…
A: Given value--- R = 1.05 × 102 ohm. We need to find--- What is the rms voltage across the…
Q: Find the charge on the capacitor in an RLC series circuit where L = 1/5 H, R = 2/50, C=1/2 F, and…
A:
Q: An AC source with a maximum voltage of 150. V and f =50.0 Hz is connected between points a and d in…
A: Part A:
Q: A 2.62 ko resistor is connected to an AC voltage source with an rms voltage of 230 V. HINT (a) What…
A: max potential = 1.414 x V r m s Vr m s = 230 volt R = 2620 Ω Imax = R / VPEAK
Q: What is the reactance of a 7.5 μF capacitor at a frequency of 72.0 Hz ? What is the reactance of…
A: Given Data:- Capacitance of the capacitor is C=7.5μF=7.5μF×10-6 F1μF=7.5×10-6 F Frequencies are,…
Q: An L-R-C series circuit has R = 400 Ω, L = 0.600 H, and C = 5.00 x 10-8 F. The voltage amplitude of…
A: Given: L-R-C series circuit has R = 400 Ω, L = 0.600 H, C = 5.00 x 10-8 F Voltage Amplitude of the…
Q: A series RLC circuit is connected to an oscillator with an rms voltage of 42.0 V, and consists of a…
A: The rms voltage is Inductance is Capacitance is Resistance is The frequency is given as Find:The…
Q: For an RLC series circuit, the voltage amplitude and frequency of the source are 100 V and 500 Hz,…
A: To find out average power dissipated by resistor in RLC circuit we must know average current in…
Step by step
Solved in 2 steps with 2 images
- An AC source operating at 62 Hz with a maximum voltage of 170 V is connected in series with a resistor (R = (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 inductor? ΔV, V V R,max AVL, max = = (c) When the current is at a maximum, what are the magnitudes of the potential differences across the resistor, the inductor, and the AC source? V AVR AVL Av source = - (d) When the current is zero, what are the magnitudes of the potential difference across the resistor, the inductor, and the AC source? V AVR AVL Av. = source 1.2 k) and an inductor (L = V 2.4 H). VAn 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(2nft) , find the first time after t = 0 when the instantaneous voltage of 50 Hz AC first reaches the following values. (a) V = Vo/2 1.6 Note that the voltage in this AC circuit is a sine function. What units should you use for the argument of the sine function? ms (b) V = Vo ms (c) V = 0 ms Additional Materials O Reading E Show My Work (Optional) ?Two resistors R₁ = 401 Ω, R2 = 929 , a capacitor C = 2.75 µF, and an inductor L = 6.30 mH, are connected to a sinusoidal voltage source with an rms voltage of 92.0 V as shown in the diagram below. A www R₁ R₂ A V. rms C (a) Determine the rms current from the source for very large frequencies. L (b) Determine the rms current from the source for very small frequencies.
- Waht is the impedance in a RLC circuit where R = 10.0 Ohms, f = 60.0 Hz Volts and L = 101 mH and the capacitance is 16.0 microfarads. 118 Ohms 208 Ohms 18 Ohms 128 Ohms 308 OhmsA transformer has a primary coil with 500 turns of wire and a secondary coil with 2,000 turns. An AC power supply connected across the primary coil has a voltage given by the function Av = (190 V)sin(wt). What rms voltage (in V) is measured across the secondary coil? VConsider an AC voltage source that produces a voltage given by V = Vmax sin(2πft), with Vmax = 16 V and f= 5.2 Hz. What is the instantaneous value of the voltage at t=1.1 s? V
- The waveform of a voltage is non-sinusoidal having a form factor of 1.15 and a peak factor of 1.4. The peak value of the voltage is 322 V. Find(a) rms value and (b) average value of the voltageA 15@mF capacitor carries 1.4 A rms. What’s its minimum safe voltage rating if the frequency is (a) 60 Hz and (b) 1.0 kHz?An RLC circuit consists of a 1120 resistor and dissipates 146 W of power when attached to a source that has an rms voltage of 160. V and a frequency of 57.0 Hz. What is the power factor for this system? ○ 0.408 ○ 0.639 ○ 0.799 1.13
- A sine-wave voltage source drives the circuit. This question attempts to measure the capacitance. You may use I = dQ/dt with VC = Q/C. Alternatively, you may use the capacitive reactance, XC = 1/ωC. The current in the circuit is I = I0*cos(ωt). You use the oscilloscope to measure the peak-to-peak voltage for the capacitor (VCp), and then for the resistor (VRp). Knowing the frequency (ω) and the resistance (R), one can (in theory) calculate the capacitance. Calculate the capacitance (in microfarads, μF = 10-6 F). These are the numbers: VCp = 15 volts VRp = 10 volts ω = 7,814 rad/s R = 608 ohmsA 87.0-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 10.0 A. As the generator frequency is increased, at what frequency will the fuse burn out?An L-R-C series circuit has C = 4.80 µF, L = 0.520 H, and source voltage amplitude V = 56.0 V. The source is operated at the resonance frequency of the circuit. If the voltage across the capacitor has amplitude 80.0 V, what is the value of R for the resistor in the circuit?