Alternating source with amplitude ε = 12 V and frequency ωd = 100 rad/s is connected in series with resistor R=300 Ω, capacitor C=25 μF and inductance L=2.0 H. What is the amplitude of the current in the circuit?
Alternating source with amplitude ε = 12 V and frequency ωd = 100 rad/s is connected...
Part A: What is the impedance of the circuit?
Part B: What is the current amplitude?
Part C: What is the phase angle of the source voltage with
respect to the current?
Part D: Does the source voltage lag or lead the current?
Part E: What is the voltage amplitude across the resistor?
Part F: What is the voltage amplitude across the inductor?
Part G: What is the voltage amplitudes across the capacitor?
Constants You have a resistor of resistance...
A series LRC circuit is driven by an alternating source with rms voltage 700 V and angular frequency 500 rad/s. The circuit elements are a 400 Ω resistor, a 4.0 μF capacitor and a 0.40 H inductor. If the resistor and inductor are side by side, what would be the rms voltage across the two elements?
7. (40 POINTS) An LRC series circuit is driven by a voltage source ε.coset, where ε,-10.0 V. R 140.0 ohms and C-1.0 μF. Note: 1.0 μF-10. 6 F. The circuit's resonant frequency is co- 6.28 x 10 3 rad/s. (a) (5) If the resistor value R is doubled, would the resonant frequency change? Yes or No Circle one. EXPLAIN (b) (5) What is the inductance L? (c) (5) If the voltage source frequency ω = ω then what is the...
An R-C circuit is driven by an alternating voltage of amplitude 110 V and frequency ω. Define Vout to be the amplitude of the voltage across the capacitor. The resistance of the resistor is 1000 Ω, and the capacitance of the capacitor is 1.00 μF . Part A What is Vout if ω=10radians/s? Express your answer numerically, in Volts. V Part B What is Vout if ω=105radians/s? Express your answer numerically, in volts.
You have a resistor of resistance 250 Ω , an inductor of inductance 0.370 H , a capacitor of capacitance 5.90 μF and a voltage source that has a voltage amplitude of 26.0 V and an angular frequency of 280 rad/s . The resistor, inductor, capacitor, and voltage source are connected to form an L-R-C series circuit. Part F What is the voltage amplitude across the inductor? Part G What is the voltage amplitudes across the capacitor? Part H Explain...
16) An alternating emf having a maximum value of 100 V and angular frequency of 1201 -' is connected in series with a resistance of 1 12, a self inductance of 3x10-3 H, and a capacitor of 2x10- F. The amplitude and phase of the current are: a) 98.21 A, 10.9° b) 76 A, 10° c) 86.33 A, 15.1°d) 100 A, 11° e) none
An alternating source drives a series RLC circuit with an emf amplitude of 6.0 V. The following three elements are connected in series: a resistor of 1812, a 24 mH inductor, and a 0.50 pF capacitor. What is the amplitude of the potential difference across the inductor, in V, at resonance?
An uncharged capacitor and a resistor are connected in series to a source of EMF. If ε = 5.13 V, C = 18.6 μF, and R = 106 Ω, calculate the time constant τ of the circuit. Calculate the maximum charge on the capacitor.
An uncharged capacitor and a resistor are connected in series to a source of EMF. If ε = 7.38 V, C = 21.1 μF, and R = 152 Ω, calculate the time constant τ of the circuit. Calculate the maximum charge on the capacitor.
When an ac source with a peak potential difference of 42V is connected to a series RLC circuit, the peak current is 4 A. The capacitor is C = 20 μF, the frequency is 60 Hz, and the current leads the potential difference by 30 ∘ degrees. Find the resitance and the inductance. R = Ω L = H