2. Calculate inductive reactance (Xc) and total impedance (Z;)
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- Determine: re, Zi, Zo, Av (use appropriate approximation)A) Analyze a series R.L.C. circuit, connected to an AC-voltage source of (Vrms=140 V), (R=210 Q), (L=0.95 H), (C=2.5 µF) and (f=60 Hz). Calculate Irms and phase angle. Also determine the nature of the circuit (resistive/capacitive/inductive).The total impedance Z, of a circuit containung an inductor with inductance L and resistance R in series is given by Z R j2fL where f frequency . If Z (50 j200)ohm and f = 50Hz. Find R and L
- A cable has inductance of 0.22 mH per km and capacitance of 0.202 microF per km. The surge impedance of the cable is ?A series circuit of RLC with following parameters, R=15 ohm, L=20 m H & C=100 micro Farad. VT=169.7 sin (337t-30) Volt. Find the following: Zt, , It, Voltage across each element, Power factor, apparent power, real or average power and reactive power and the total phasor diagram and power phasor diagramThe resistance and inductance of a coil can be obtained by connecting the coil in series with a known resistance R and measuring the coil voltage Vcoil, the resistor voltage Vr and the total voltage V. The frequency must also be known, but the phase angles of the voltages are not known. Given that f = 60 Hz, R = 10 ohms, Vcoil = 22.4 V, Vr = 20 V and V = 36V. Calculate Xl and Xc
- 3. A transmission line has a capacitance of 0.1 μF per phase. Determine the inductance of Peterson coilto neutralize the effect of capacitance of (i) complete length of the line, (ii) 97% of the line, (iii) 90%length of the line. The supply frequency is 50 Hz. [(i) 33.80H (ii) 34.84H (iii) 37.55H]A resistor'R' with resistance value of 24 ohm, an inductor 'L' with inductance 20mH, and a capacitor 'C' with capacitance 50 micro Farrad are connected in series with a AC voltage v(t) where v(t) = 50 cos (2 vt + 30 degrees) v. Determine the current i(t) and total impedance if the frequency f is i. 60 Hz ii. 400Hzdetermine the inductive reactance of rlc series ac circuit given the ff: rms current=7.5A voltage=5V resistance=150ohms capacitive resitance=160ohm source average power=2.5W
- In one measurement of the body's bioelectric impedance, values of Z = 4.09 x 102 and = -6.08° are obtained for the total impedance and the phase angle, respectively. These values assume that the body's resistance R is in series with its capacitance C and that there is no inductance L. Determine the body's (a) resistance and (b) capacitive reactance.A 15 mH inductor is in series with a parallel combination of 80 ohm resistor and 20 microFarad capacitor. If the angular frequency of the applied voltage is1000 rad/sec, find the inductive and capacitive reactance in ohms choices: a. 50, 15 b. 12, 50 c. 14, 49 d. 49, 14Using the phase shift of 72º from the Experiment, determine the inductance value, L, of the inductor shown. Vr(t) =3.7272 cos(4000 t - 72°) [V]