Explanation Calculation: Refer to the Figure given in the question. Modify the circuit diagram as shown in Figure 1. From input current source, the frequency ω is 10. Find the capacitive impedance of 40 mF. Z C = 40 mF = 1 j ω C Substitute 10 for ω and 40 mF for C . Z C = 40 mF = 1 j 10 × 40 × 10 − 3 Ω = 1 j 10 × 40 × 10 − 3 Ω = − j 2.5 Ω Find the current flowing through 4 Ω using current divider rule. I 4 Ω = 2.5 ∠ 0 0 V ( 1 + 4 − j 2.5 ) Ω = 2.5 ∠ 0 0 V ( 1 + 4 − j 2.5 ) Ω = 0.447 ∠ 26.56 ° A As the resistor 4 Ω and capacitor 40 mF are connected in series, the current flowing through 4 Ω is same as the current flowing through 40 mF. I C = I 4 Ω = 0.447 ∠ 26.56 ° A Find the voltage across the capacitor. V C = 40 mF = I C Z C Here, I C is the current flowing through the capacitor and Z C is the impedance of the capacitor. Substitute − j 2.5 Ω for Z C and 0.447 ∠ 26.56 ° A for I C . V C = 40 mF = ( 0.447 ∠ 26.56 ° A ) ( − j 2.5 Ω ) = 1.1175 ∠ − 63.44 ° V Find the voltage across 4 Ω resistor. V 4 Ω = I 4 Ω ( 4 Ω ) Substitute 0.447 ∠ 26.56 ° A for I 4 Ω . V 4 Ω = ( 0.447 ∠ 26.56 ° A ) ( 4 Ω ) = 1.778 ∠ 26.56 ° V Find the voltage across 1 Ω . V 1 Ω = V 4 Ω + V 40 mF = 1.778 ∠ 26.56 ° V + 1.1175 ∠ − 63.44 ° V = 2 .13 ∠ − 6 .9 ° V There is no element between the source and the 1 Ω resistor. Hence, the voltage across 1 Ω is same as the source voltage. Find the current flowing through 1 Ω . I 1 Ω = V 1 Ω 1 Ω = 2

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Author: Hayt

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Chapter 11, Problem 30E

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Calculate the effective current and voltage of each element.

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Chapter 11, Problem 31E

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ENGINEERING CIRCUIT...(LL)>CUSTOM PKG.<

Ch. 11.1 - A current source of 12 cos 2000t A, a 200 ....Ch. 11.2 - Given the phasor voltage across an impedance ,...Ch. 11.2 - Prob. 3P Ch. 11.2 - Prob. 4P Ch. 11.2 - A voltage source vs is connected across a 4...Ch. 11.3 - If the 30 mH inductor of Example 11.7 is replaced...Ch. 11.4 - Calculate the effective value of each of the...Ch. 11.5 - For the circuit of Fig. 11.16, determine the power...Ch. 11.6 - Prob. 10P Ch. 11 - Prob. 1E

Ch. 11 - Determine the power absorbed at t = 1.5 ms by each...Ch. 11 - Calculate the power absorbed at t = 0, t = 0+, and...Ch. 11 - Three elements are connected in parallel: a 1 k...Ch. 11 - Let is = 4u(t) A in the circuit of Fig. 11.28. (a)...Ch. 11 - Prob. 6E Ch. 11 - Assuming no transients are present, calculate the...Ch. 11 - Prob. 8E Ch. 11 - Prob. 9E Ch. 11 - Prob. 10E Ch. 11 - The phasor current I=915mA (corresponding to a...Ch. 11 - A phasor voltage V=10045V (the sinusoid operates...Ch. 11 - Prob. 13E Ch. 11 - Prob. 14E Ch. 11 - Find the average power for each element in the...Ch. 11 - (a) Calculate the average power absorbed by each...Ch. 11 - Prob. 17E Ch. 11 - Prob. 18E Ch. 11 - Prob. 19E Ch. 11 - The circuit in Fig. 11.36 has a series resistance...Ch. 11 - Prob. 21E Ch. 11 - Prob. 22E Ch. 11 - Prob. 23E Ch. 11 - Prob. 24E Ch. 11 - Prob. 25E Ch. 11 - Prob. 26E Ch. 11 - Prob. 27E Ch. 11 - Prob. 28E Ch. 11 - Prob. 29E Ch. 11 - Prob. 30E Ch. 11 - Prob. 31E Ch. 11 - Prob. 32E Ch. 11 - Prob. 33E Ch. 11 - (a) Calculate both the average and rms values of...Ch. 11 - Prob. 35E Ch. 11 - FIGURE 11.43 Calculate the power factor of the...Ch. 11 - Prob. 37E Ch. 11 - Prob. 38E Ch. 11 - Prob. 40E Ch. 11 - Prob. 41E Ch. 11 - Prob. 42E Ch. 11 - Prob. 43E Ch. 11 - Compute the complex power S (in polar form) drawn...Ch. 11 - Calculate the apparent power, power factor, and...Ch. 11 - Prob. 46E Ch. 11 - Prob. 48E Ch. 11 - Prob. 49E Ch. 11 - Prob. 50E Ch. 11 - Prob. 51E Ch. 11 - Prob. 52E Ch. 11 - FIGURE 11.49 Instead of including a capacitor as...Ch. 11 - Prob. 54E Ch. 11 - A load is drawing 10 A rms when connected to a...Ch. 11 - For the circuit of Fig. 11.50, assume the source...Ch. 11 - Prob. 57E Ch. 11 - A source 45 sin 32t V is connected in series with...Ch. 11 - Prob. 60E Ch. 11 - FIGURE 11.51 The circuit in Fig. 11.51 uses a Pi...Ch. 11 - Prob. 62E Ch. 11 - Prob. 63E Ch. 11 - You would like to maximize power transfer to a 50 ...

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