4. A transmission line has a characteristic impedance of Z = 21.05260.4° with propagation constant of 7.561 X 10-³+j 0.002863. Calculate the primary constants at an angular frequency of 6000 rad/sec.
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- An RLC circuit has resistance R = 1800 and inductive reactance X = 331 0. HINT (a) Calculate the circuit's capacitive reactance X (in (2) if its power factor is cos(p) = 0.707. Ω (b) Calculate the circuit's capacitive reactance X (in ) if its power factor is cos(p) = 1.00. Ω (c) Calculate the circuit's capacitive reactance X (in (2) if its power factor is cos(4) Ω = 1.00 x 10-²For a coaxial transmission line, L=1.8mh/m C=0.01pF/m, then what will be the impedance of the cable?A sinusoidal voltage Av = 35.0 sin(100t), where Av is in volts and t is in seconds, is applied to a series RLC circuit with L = 170 mH, C = 99.0 µF, and R = 64.0 2. (a) What is the impedance (in 2) of the circuit? Q (b) What is the maximum current (in A)? A (c) Determine the numerical value for w (in rad/s) in the equation i = Imax sin(wt - p). rad/s
- A radio transmitter applies 480 V rms across a 6800-pF capacitor and an inductor, connected in parallel to make a resonant circuit that determines the transmitter's frequency. The resulting current in each component is 22.0 A rms. Part A Find the transmitter frequency. Express your answer in megahertz. f = Submit Part B L = ΑΣΦ Find the inductance. Express your answer in microhenries. Submit Request Answer VE ΑΣΦ Request Answer = ? MHz μΗA resistor (R = 9.00 x 102 Q), a capacitor (C = 0.250 µF), and an inductor (L = 2.40 H) are connected in series across a 2.40 × 102-Hz AC source for which AV. = 1.50 x 102 V. max (a) Calculate the impedance of the circuit. 2.463 x kQ (b) Calculate the maximum current delivered by the source. 0.0609 X A (c) Calculate the phase angle between the current and voltage. 47.06Q.1. For the AC waveforms, Sinusoidal and Square, each of frequency 50HZ and Vp = 2, measure the following (i) Time period, T_(Calculated and measured value) (ii) Vp-P (iii) Vrms (iv) No. of Vertical Divisions Volts (v) Div
- A generator connected to an RLC circuit has an rms voltage of150 V and an rms current of 39 mA. If the resistance in the circuitis 3.3 kΩ and the capacitive reactance is 6.6 kΩ, what is the inductive reactance of the circuit?A sinusoidal voltage Δv = 35.0 sin(100t), where Δv is in volts and t is in seconds, is applied to a series RLC circuit with L = 180 mH, C = 99.0 µF, and R = 67.0 Ω. (a) What is the impedance (in Ω) of the circuit? (b)What is the maximum current (in A)? (c)Determine the numerical value for ? (in rad/s) in the equation i = Imax sin(?t − ?).rad/s (d)Determine the numerical value for ? (in rad) in the equation i = Imax sin(?t − ?). rad (e) What If? For what value of the inductance (in H) in the circuit would the current lag the voltage by the same angle ? as that found in part (d)? H (f)What would be the maximum current (in A) in the circuit in this case? please fill the whole thing thank you.27. In an RLC series circuit, the voltage amplitude and frequency of the source are 100 V and 500 Hz, respectively, an R = 500 M, L = 0.20 H, and C = 2.0μF. (a) What is the impedance of the circuit? (b) What is the amplitude of the current from the source? (c) If the emf of the source is given by v (t) = (100 V) sin 1000t, how does the current vary with time?
- How do I solve this problem?Why is the following situation impossible? An RLC circuit is used in a radio to tune into a North American AM commercial radio station. The values of the circuit components are R = 15.0 Ω, L = 2.80 μH, and C = 0.910 pF. traveling waves. Find the amplitude and phase constant of the sum of the three waves represented by y1 = 12.0 sin (15.0x - 4.50t + 70.08) y2 = 15.5 sin (15.0x - 4.50t - 80.08) y3 = 17.0 sin (15.0x - 4.50t + 1608)where x, y1, y2, and y3 are in centimeters and t is in seconds.An LC circuit consists of a 3.10 mH inductor and a 4.81 μF capacitor. (a) Find its impedance at 56.5 Hz. 584.55 Ω (b) Find its impedance at 10.2 kHz. Ω (c) Now a 31.4 resistor is added in series with the inductor and capacitor. Find the impedance of this RLC circuit at 56.5 Hz and 10.2 kHz. At 56.5 Hz Ω At 10.2 kHz 585.39 1.732 X What is the impedance of an RLC circuit? Check your calculations. (d) Compare the values of Z in parts (a) and (b) with those found in part (c), in which there was also a resistor. Why are they similar? (Select all that apply.) At low frequency, the inductor dominates. The resistor makes little contribution to the total impedance. At high frequency, the inductor dominates. At high frequency, the capacitor dominates. At low frequency, the capacitor dominates.