ialy d In RLC resonance circuit energy is transferred from the capacitance to the * .inductance True False O نقضة واحدة In a parallel RLC circuit, the smaller reactance determines the net *.reactance of the circuit True False نقطة واحدة If the value of C in a series RLC circuit is decreased, the resonant * frequency is reduced to zero False O True O
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- You are an electrician working in a plant. A series resonant circuit is to be used to produce a high voltage at a frequency of 400 Hz. The inductor has an inductance of 15 mH and a wire resistance of 2 . How much capacitance should be connected in series with the inductor to produce a resonant circuit? The voltage supplied to the circuit is 240 V at 400 Hz. What is the minimum voltage rating of the capacitor?A circuit, having a resistance of 4.0 Ω with an inductance of 0.5 H and a variable capacitance in series, is connected across a 100 V, 50 Hz supply. Calculate: (a) the capacitance required to attain resonance; (b) voltages across the inductance and the capacitance at resonance; (c) the Q factor of the circuitA circuit consisting of a coil with inductance 10 mH and resistance 20 Ω is connected in series with a capacitor and a generator with an rms voltage of 120 V. Find: (a) the value of the capacitance that will cause the circuit to be in resonance at 15 kHz (b) the current through the coil at resonance (c) the Q of the circuit
- A series circuit consists of a resistance of 4Ω, an inductance of 500mH and a variable capacitance connected across a 100V, 50Hz supply. Calculate the capacitance require to produce a series resonance condition, and the voltages generated across both the inductor and the capacitor at the point of resonanceA series RLC circuit has a sinusoidal input voltage of maximum value 12V. In inductance, L = 20 mH, resistance, R = 80 ohms, and capacitance, C = 400 nF, determine (I) the resonant frequency, (II) the value of the potential difference across the capacitor at the resonant frequency, (III) the frequency at which the potential difference across the capacitor is at maximum, and (IV) the value of the maximum voltage across the capacitor.A 500 µH inductor, 80/π^2 pF capacitor and a 628 ohm resistor are connected to form a series RLC circuit. Calculate the resonant frequency and Q-factor of this circuit at resonance ? Please answer ASAP
- For the following statements, identify which are True and which are False. If False, please explainin one or two sentences why the statement is False.a) Resonance in an RLC series circuit occurs when the driving frequency is equal to 5 times the natural frequencyof the circuit.b) The maximum power is delivered when the system is being driven at resonance.c) Damped spring-mass oscillators and RLC series circuits do not behave mathematically identically. At all. Period. Please clear explainations. Thnak you388 / 5000 Çeviri sonuçları In the circuit in the figure, Rs = 3.8 kΩ, R1 = 82 kΩ, R2 = 22 kΩ, RC = 5.6 kΩ, RE = 1.5 kΩ and RL = 3.3 kΩ and β = 150.Since the capacitances are C1 = 0.5 μF and C2 = 0.53 μF, what is the low cutoff frequency of the given circuit? NOTE-1: In the middle band frequency, β = 150 will be taken and the frequency dependence of β will not be taken into account. NOTE-2: The output impedance of the transistor r0 will be neglected in the calculations.1. A series RLC circuit has a Q of 75 and a pass band between half-power frequencies of 160 cps. Calculate the frequency of resonance and upper and lower frequencies of the pass band. 2. A 15.9 uF capacitor and a 15.1 mH inductor are connected in parallel. In series with these units are a variable resistor R and an adjustable device X, joined in series. (a) Determine the kind and size of device X (inductance in Henry or capacitance in Farad) when the circuit is connected to a 50 volt 400 cps source and is adjusted to resonance. (b) For the resonant condition, calculate the value of R if the voltage drop across the paralleled units is to be 100 volts. 3. An impedance coil having a resistance of 30 ohms and a 50 cps inductive reactance of 33.3 ohms is connected to a 125 volt 60 cps source. A series circuit consisting of a 20 ohm resistor and a variable capacitor is then connected in parallel with the coil. (a) for what values of capacitance will the circuit be in resonance? (b)…
- An inductor of 150 mH with a resistance of 75 Ω and a capacitor of C fed are connected in series. The connection is 150 V, 50Hz AC. Supply is provided. So find the value of the capacitor for resonance condition and find the current at resonance.A variable capacitor C is connected in series with a coil having inductance L. The cir cuit possesses stray capacitance CS which is assumed to be constant and effectively in par allel with the variable capacitor C. When the capacitor is set to 2.0 nF the resonant fre quency of the circuit is 86.85 kHz, and when the capacitor is set to 1.0 nF the resonant fre quency is 120 kHz. Determine the values of (a) the stray circuit capacitance CS and (b) the coil inductance L. . A series R–L–C circuit comprises a 5µF capacitor, a 4ohm resistor and a variable induc tance L. The supply voltage is 10∠0◦ V at a frequency of 159.1 Hz. The inductance is adjusted until the p.d. across the 4 ohm resistance is a maximum. Determine for this condition (a) the value of inductance, (b) the p.d. across each component and (c) the Q-factor of the circuit.A series resonant circuit has a resonant frequency of 6.3662 Hz and a bandwidth of 10 rad/sec. If you were the designer, what should be the value of the inductance?