In a R-L-C AC circuit, R= 5 Ohm, ZL= j 7 Ohm, ZC= -j 6 Ohm....

1. A R-L circuit consists of one resistance 2.0 Ohm and one unknown Inductance. A voltage...

1. A R-L circuit consists of one resistance 2.0 Ohm and one unknown Inductance. A voltage v=54 sin(399 t) is applied to this circuit and measured current is 2.77 A. Find out the unknown Inductance in mH unit. 2. In a R-L-C AC circuit, R= 7 Ohm, ZL= j 8 Ohm, ZC= -j 15 Ohm. Supply voltage is v= 15 sin( 7 t). Calculate the ANGLE of Z.

Consider a series AC circuit with L = 3.5mH, R = 50Ω, C = 10μF, and...

Consider a series AC circuit with L = 3.5mH, R = 50Ω, C = 10μF, and E0 = 60V. 1) Find the amplitude of the current, f = 1250Hz. 2) Explain in words why the amplitude of the voltages across the capacitor, resistor, and inductor can add up to more than the amplitude of the voltage of the power supply? 3) Find the phase angle for the circuit at f = 1250Hz, what does this angle indicate is happening in...

An L-R-C series circuit driven by an AC source has the phasors shown. At the instant...

An L-R-C series circuit driven by an AC source has the phasors shown. At the instant shown in the phasor diagram,  ω t = π 3. If the voltage amplitude across the resistor is VR = 16.00 V, and the voltage amplitude across the inductor is also VL = 16.00 V, then what is the instantaneous voltage across the inductor at the instant shown in the phasor diagram?

16. In an RLC circuit, a resistor R x 8 Ohm, a capacitor of 330 micro...

16. In an RLC circuit, a resistor R x 8 Ohm, a capacitor of 330 micro Faraday, and an inductance of 50 mH are connected in series. The circuit is connected to an alternating source that delivers a voltage equal to: V-250- without (314 t) (volts) Identify and calculate: a) The maximum voltage of the source. b) The frequency of the source. c) The RMS voltage of the source. d) Capacitive reactance. e) Inductive reactance. f) The impedance of the...

If the instantaneous value of a voltage in an AC circuit of the communication system (at...

If the instantaneous value of a voltage in an AC circuit of the communication system (at any time t seconds) is given by V= 142sin(8πt-0.125π) volts, determine: a. The amplitude, b. Periodic time (in ms) c. Frequency d. Phase angle in degrees e. Voltage at t=0 f. Voltage at t=10ms g.Time when voltage reaches 100volts h. Time when voltage is maximum i. Sketch one cycle of the waveform j. Given that the voltage waveform can also be represented as V=Rsin(ωt+θ),...

A series RLC circuit has R=425 ohms, L=1.25H, C=3.50uF. It is connected to an ac source...

A series RLC circuit has R=425 ohms, L=1.25H, C=3.50uF. It is connected to an ac source with f=60.0Hz and V =150v. Show that the sum of the individual voltage drops on the circuit elements is 150V.

consider a series RLC circuit with a resistor E = 43.0 ohm, an inductor L =...

consider a series RLC circuit with a resistor E = 43.0 ohm, an inductor L = 15.5 mH, a capacitor C = 0.0545 micro farads and an AC source that provides an RMS voltage of 0.301 V at 16.2 kHz what is the impedance of the circuit in ohms

An LRC series circuit with R = 120 Ω , L = 40 mH , and...

An LRC series circuit with R = 120 Ω , L = 40 mH , and C = 1.5 μF is powered by an ac voltage source of peak voltage V0 = 230 V and frequency f = 440 Hz. Determine the peak voltage across L. Determine the phase angle of the voltage across L relative to the source voltage Determine the peak voltage across C. Determine the phase angle of the voltage across C relative to the source voltage.

a series rlc circuit has r= 400 ohms, L= 1.25H & C= 12.5 uF. The Voltage...

a series rlc circuit has r= 400 ohms, L= 1.25H & C= 12.5 uF. The Voltage is 12v sin(400t) . using reactants x, determine the impendance Z. Current magnitude i and the phase angle for this circuit

An LRC series circuit is constructed. L=180mH, C=60microfarad, R=50ohm. An AC source with a maximum voltage...

An LRC series circuit is constructed. L=180mH, C=60microfarad, R=50ohm. An AC source with a maximum voltage of 150V and f=50Hz is connected to the series. Calculate the voltage drop across the capacitor, the resisotr and the inductor.