Question 8 E-SV/ Find the total impedance, ZT a. b. Determine the supply current, IT. c....
1. Find the total impedance Zt through terminal a-b 2. Determine the current through the capacitor. Fig. 3.1 [20] Question 2 (10) For the network of Fig 32: 2.1 Find the total impedance Zrthrough terminal a-b. 22 Determine the current Ic through the capacitor. (10) 2.762 2k 12mAL 304 4.72 12V0 1012 6 K2 Fig. 3.2 16
10) For the network in Fig.: a. Find the total impedance ZT and the admittance YT. b. Find the currents I, 12, and 13. c. Verify Kirchhoff's current law by showing that Is-I+ 12+ 13. d. Find the power factor of the network, and indicate whether it is leading or lagging ZT 15Ω 13
For the given circuit, a. Find the total admittance and impedance in polar form. b. Find the voltage E and currents I_r.I_L., and I_C in phasor form. c. Find the average power delivered to the circuit. d. Find the power factor and indicate if is leading or lagging. e. Find the time domain expressions for the currents and voltage. The total load on a 208 V, 60 Hz supply is 6 KW resistive, 10 kV AR inductive, and 4 kVAR...
A. Using the rated component values, calculate XL, XC, ZT. Draw the impedance phasor diagram. B. Calculate the total current IT and component voltages VL, VC, and VR, using info from part A. Draw the voltage-current phasor diagram CHAN, A Scope A 72mH C1 e=7.07 sin 20kt - 0.01pF R1 CHAN. B Scope 22KQ
3 For the network a. Find the total impedance Z and the total admittance Y. b. Find the current I.. c. Calculate I, using the current divider rule. d. Calculate Ve e. Calculate the average power delivered to the network RX-120
Consider the transmission line crkt in problem 5. Assume the generator impedance is matched to Zin, and take Vs 2.020° V. a) Find the total voltage at z-/12, V(z--/12) b) Find the wave impedance at z--λ/12, Z(z-N12) c) Find the total current at z--A/12, 1(z-N12) Zg 9 Lin Zo=50Ω ZL = 120Ω 「一 Гіп z--l Consider the transmission line crkt in problem 5. Assume the generator impedance is matched to Zin, and take Vs 2.020° V. a) Find the total...
QUESTION 15 Calculate the current I E/ZT (in mA) in the series circuit shown. The source voltage E5 Vrms, the resistance is R-47 W , and the inductor reactance is XL = 33 W . (Enter your answer as the number of mA without the units.) 5 V RMS 350 Hz
Two circuit Aand B are connected to a 115V, 50Hz supply. The total current taken by combination is 10 Amps at unity power factor. Circuit A consists of a 10 ohms resistor and a 200 uf capacitor connected in series, circuit B consists of a resistor and an inductive in series. Determine the current, the impedance, resistance and reactance
Find the Thevenin equivalent circuit external to the indicated load impedance ZL=10Ω∠0° connected across a-b as shown in Figure 1. Also, calculate the current through the impedance ZL=10Ω∠0° (a) Find the Thevenin equivalent circuit external to the indicated load impedance ZL=10 2Z0° connected across a-b as shown in Figure 1. Also, calculate the current through the impedance ZL 10 220° 24 Q 10 Q a + Z 10 Zo 5 VZ0° 16 Q 500 mA /0° b 12 Q Figure...
find the probability that a european put option with underlying s finishes in the money a) Let Y e*t, Find the stochastic differential equation satisfied by t. b) Let Zt -eatX. Find the stochastic differential equation satisfied by Zt c) Find XtWdWs, where W, is a Brownian motion. 0 Hint: Set XtaW2 + bWt + ct. Find a, b, and c. 6) Find the probability that a European put option with underlying S a) Let Y e*t, Find the stochastic...