Electrical Circuits and Modified MasteringEngineering - With Access
10th Edition
ISBN: 9780133992793
Author: NILSSON
Publisher: PEARSON
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Chapter 1, Problem 19P
(a)
To determine
Calculate the maximum power delivered to the circuit element.
(b)
To determine
Calculate that the total energy delivered to the circuit element using Pspice.
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-E1 + VR1 + VR4 – E2 + VR3 = 0 -------> Loop 1 (a)
R1(I1) + R4(I1 – I2) + R3(I1) = E1 + E2 ------> Loop 1 (b)
R1(I1) + R4(I1) - R4(I2) + R3(I1) = E1 + E2 ------> Loop 1 (c)
(R1 + R3 + R4) (I1) - R4(I2) = E1 + E2 ------> Loop 1 (d)
Now that we have loop 1 equation will procced on finding the equation of I2 current loop. However, a reminder that because we are going in a clockwise direction, it goes against the direction of the current. As such we will get an equation for the matrix that will be:
E2 – VR4 – VR2 + E3 = 0 ------> Loop 2 (a)
-R4(I2 – I1) -R2(I2) = -E2 – E3 ------> Loop 2 (b)
-R4(I2) + R4(I1) - R2(I2) = -E2 – E3 -----> Loop 2 (c)
R4(I1) – (R4 + R2)(I2) = -E2 – E3 -----> Loop 2 (d)
These two equations will be implemented to the matrix formula I = inv(A) * b
R11 R12
(R1 + R3 + R4)
-R4
-R4
R4 + R2
10.2 For each of the following groups of sources, determineif the three sources constitute a balanced source, and if it is,determine if it has a positive or negative phase sequence.(a) va(t) = 169.7cos(377t +15◦) Vvb(t) = 169.7cos(377t −105◦) Vvc(t) = 169.7sin(377t −135◦) V(b) va(t) = 311cos(wt −12◦) Vvb(t) = 311cos(wt +108◦) Vvc(t) = 311cos(wt +228◦) V(c) V1 = 140 −140◦ VV2 = 114 −20◦ VV3 = 124 100◦ V
Apply single-phase equivalency to determine the linecurrents in the Y-D network shown in Fig. P10.13. The loadimpedances are Zab = Zbc = Zca = (25+ j5) W
Chapter 1 Solutions
Electrical Circuits and Modified MasteringEngineering - With Access
Ch. 1.2 - Assume a telephone signal travels through a cable...Ch. 1.2 - How many dollars per millisecond would the federal...Ch. 1.5 - The current at the terminals of the element in...Ch. 1.5 - The expression for the charge entering the upper...Ch. 1.6 - Assume that a 20 V voltage drop occurs across an...Ch. 1.6 - Prob. 6APCh. 1.6 - A high-voltage direct-current (dc) transmission...Ch. 1 - There are approximately 260 million passenger...Ch. 1 - A hand-held video player displays 480 × 320...Ch. 1 - The 16 gigabyte (GB = 230 bytes) flash memory chip...
Ch. 1 - The line described in Assessment Problem 1.7 is...Ch. 1 - One liter (L) of paint covers approximately of...Ch. 1 - Some species of bamboo can grow (250 mm/day)....Ch. 1 - There is no charge at the upper terminal of the...Ch. 1 - The current entering the upper terminal of Fig....Ch. 1 - Prob. 9PCh. 1 - In electronic circuits it is not unusual to...Ch. 1 - How much energy is imparted to an electron as it...Ch. 1 - The references for the voltage and current at the...Ch. 1 - Repeat Problem 1.12 with a voltage of −60 V.
1.12...Ch. 1 - Prob. 14PCh. 1 - When a car has a dead battery, it can often be...Ch. 1 - Prob. 16PCh. 1 - One 12 V battery supplies 100 mA to a boom box....Ch. 1 - Prob. 18PCh. 1 - The voltage and current at the terminals of the...Ch. 1 - Prob. 20PCh. 1 - The voltage and current at the terminals of the...Ch. 1 - The voltage and current at the terminals of the...Ch. 1 - The voltage and current at the terminals of the...Ch. 1 - The voltage and current at the terminals of the...Ch. 1 - The voltage and current at the terminals of the...Ch. 1 - The voltage and current at the terminals of an...Ch. 1 - The voltage and current at the terminals of the...Ch. 1 - An industrial battery is charged over a period of...Ch. 1 - The numerical values for the currents and voltages...Ch. 1 - The numerical values of the voltages and currents...Ch. 1 - Assume you are an engineer in charge of a project...Ch. 1 - The voltage and power values for each of the...Ch. 1 - The current and power for each of the...Ch. 1 - Show that the power balances for the circuit shown...Ch. 1 - Suppose there is no power lost in the wires used...
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