whole question plz. I will give good feedback.:) 5. Shown below is an RC circuit driven...
A series LRC circuit is driven by an ac source with a voltage amplitude of 36.0 V and a frequency of 60.0 Hz. The resistance is 160 Ohm, the inductance is 0.230 H, and the capacitance is 70.0 mu F. a) Determine the impedance of the circuit. b) Determine the current amplitude. c) Determine the voltage amplitude across (i) the resistor, (ii) the inductor and (iii) the capacitor. d) Sketch the phasor diagram (at t = 0) for the circuit,...
1. L RC Circuit. An AC circuit has an inductance L -5 mH, a resistance of 8.5 Ohms, and a capacitance of 1 mF. It is driven by a sinusoidal signal at a frequency of f 100 Hz. Calculate (a) the inductive reactance, XL: (b) the capacitive reactance Xc: (c) the magnitude of the impedance Z: (d) the resonant frequeney in Hertz, and (e) the phase of the resulting current.
PHYS 212 RECITATION EXERCISE 1: USING PHASORS FOR A DRIVEN RC CIRCUIT We will consider a circuit consisting of a time varying emf in series with a capacitor and resistor. The capacitance and resistance are fixed but we can tune the frequency of the source. In an AC circuit, each element has a "reactance" which can be used to relate the peak current through the element to the peak voltage across the element 1. What does the angular frequency of...
That's all I was given. 6) A series LRC circuit has resistance 400 Ω, inductance 0.900 H, and capacitance 2.50 μF The source voltage has a constant amplitude 90.0 V, but an adjustable frequency a) Determine the impedance of the circuit if the source has angular frequency (i) 1000 rad/s, (i) 750 rad/s, and (ii) 500 rad/s. b) Determine the resonance angular frequency c) Describe (qualitatively) the change in the current amplitude as the 2 angular frequency is slowly adjusted...
EXERCISE 2: USING PHASORS FOR A DRIVEN RC CIRCUIT 10. On the middle set of axes, draw phasors for k and ε using the provided ve phasor as a basis for a circuit in which R- 2Xc. Start by deciding what the peak voltage across the capacitor must be compared to the peak voltage across the resistor and then draw the appropriate Vc phasor We will consider a circuit consisting of a time varying emf in series with a capacitor...
A RLC circuit is driven by an AC source of 120volts with frequency 60H_z. The resistance is 2000 Ohm, the capacitance is 500 mu F, and the inductance is 100_m M. Find the inductive reactance, The capacitive reactance, the impedance, the current, and the resonant frequency.
An RLC circuit is driven by an AC generator. The voltage of the generator is VRMS = 81.4 V. The figure shows the RMS current through the circuit as a function of the driving frequency. 900 800 700 600 500 400 300 200 100 0 100 0 200 300 400 500 600 700 800 900 driving frequency (Hz) What is the resonant frequency of this circuit? Please, notice that the resonance curve passes through a grid intersection point. Tries 0/12...
Exercise 6 An AC circuit is composed of a serial connection of: a resistor with resistance R-50 a coil with inductance L-0.3 H and a capacitor with capacitance C. I 5·E The circuit is connected to an AC voltage source with ar 50V,600 ㎐ 1. Determine the impedance and the effective electric current in the circuit. 2. Determine the phase shift between the voltage and the current. Conclude. 3. Find the appropriate frequency that make the circuit pure resistance circuit.
I have two graphs for voltage across the capacitor in RC and CR circuit. I have two graphs for voltage across the resistance in RC and CR circuit. I have two graphs for voltage across the source n RC and CR circuit. Explain how the voltage across the capacitor is change with increasing frequency. Make sure to explain this relative to frequency dependent resistance – the impedance?
1) An RLC series circuit has a 40.0 ? resistor, a 3.00 mH inductor, and a 5.00 ?F capacitor a. Find the circuit's impedance at 60.0 Hz and 10.0 kHz b. If the voltage source has Vrms 120 V, what is Irms at each frequency? c. Find the resonant frequency d. Calculate Irms at resonant frequency, if the voltage source is Vrms-120v e. Calculate the power factor and phase angle at 60.0 Hz