Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN: 9780133923605
Author: Robert L. Boylestad
Publisher: PEARSON
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Chapter 10, Problem 36P
Repeat Problem 35 if a 10 k
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Chapter 10 Solutions
Introductory Circuit Analysis (13th Edition)
Ch. 10 - a. Find the electric field strength at a point 1 m...Ch. 10 - The electric field strength is 72 newtons/coulomb...Ch. 10 - Find the capacitance of a parallel plate capacitor...Ch. 10 - How much charge is deposited on the plates of a...Ch. 10 - a. Find the electric field strength between the...Ch. 10 - A 6.8 pF parallel plate capacitor has 160 C of...Ch. 10 - Find the capacitance of a parallel plate capacitor...Ch. 10 - Repeat Problem 7 if the dielectric is...Ch. 10 - Find the distance in mils between the plates of a...Ch. 10 - The capacitance of a capacitor with a dielectric...
Ch. 10 - The plates of a parallel plate capacitor with a...Ch. 10 - A parallel plate air capacitor has a capacitance...Ch. 10 - Find the maximum voltage that can be applied...Ch. 10 - Find the distance in micrometers between the...Ch. 10 - A 22 pF capacitor has -200 ppm/C at room...Ch. 10 - What is the capacitance of a small teardrop...Ch. 10 - A large, flat, mica capacitor is labeled 471F....Ch. 10 - A small, flat, disc ceramic capacitor is labeled...Ch. 10 - For the circuit in Fig. 10.94, composed of...Ch. 10 - Repeat Problem 19 for R=100k, and compare the...Ch. 10 - For the circuit in Fig. 10.95, composed of...Ch. 10 - For the circuit in Fig. 10.96, composed of...Ch. 10 - Prob. 23PCh. 10 - The voltage across a 10 F capacitor in a series...Ch. 10 - For the R-C circuit in Fig. 10.97. composed of...Ch. 10 - For the network in Fig. 10.98. composed of...Ch. 10 - For the network in Fig.10.99.composed of standard...Ch. 10 - The 1000 F capacitor in Fig.10.100 is charged to...Ch. 10 - The capacitor in Fig. 10.101 is initially charged...Ch. 10 - Repeat Problem 29 if the initial charge is -40V.Ch. 10 - Repeat Problem 29 if the initial charge is +40V.Ch. 10 - The capacitor in Fig. 10.102 is initially charged...Ch. 10 - The capacitor in Fig. 10.103 is initially charged...Ch. 10 - The capacitor in Fig. 10.104 is initially charged...Ch. 10 - The capacitors of Fig. 10.105 are initially...Ch. 10 - Repeat Problem 35 if a 10 k resistor is placed in...Ch. 10 - Given the expression vc=140mV(1-e-t/2ms) a....Ch. 10 - For the automobile circuit of Fig. 10.106. VL must...Ch. 10 - Design the network in Fig.10.107 such that the...Ch. 10 - For the circuit in Fig. 10.108: a. Find the time...Ch. 10 - For the system in Fig. 10.109. using a DMM with a...Ch. 10 - For the circuit in Fig. 10.110: a. Find the...Ch. 10 - The capacitor in Fig. 10.111 is initially charged...Ch. 10 - The capacitors in Fig. 10.112 are initially...Ch. 10 - For the circuit in Fig. 10.113: a. Find the...Ch. 10 - The capacitor in Fig. 10.114 is initially charged...Ch. 10 - For the system in Fig. 10.115, using a DMM with a...Ch. 10 - Find the waveform for the average current if the...Ch. 10 - Find the waveform for the average current if the...Ch. 10 - Given the waveform in Fig.10.118 for the current...Ch. 10 - Find the total capacitance CT for the network in...Ch. 10 - Find the total capacitance CT for the network in...Ch. 10 - Find the steady-state voltage across and the...Ch. 10 - Find the steady-state voltage across and the...Ch. 10 - For the configuration in Fig. 10.123, determine...Ch. 10 - For the configuration in Fig.10.124, determine the...Ch. 10 - Find the energy stored by a 120 pF capacitor with...Ch. 10 - If the energy stored by a 6 F capacitor is 1200 J,...Ch. 10 - For the network in Fig. 10.125, determine the...Ch. 10 - An electronic flashgun has a 1000 F capacitor that...Ch. 10 - Using PSpice or Multisim, verify the results in...Ch. 10 - Using the initial condition operator, verify the...Ch. 10 - Using PSpice or Multisim, verify the results for...Ch. 10 - Using PSpice or Multisim, verify the results in...
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- For the amplifier shown, if β = 150: Calculate the input impedance at the base. Calculate the input impedance of the stage.arrow_forward53. Obtain an expression for i(t) as labeled in the circuit diagram of Fig. 8.84, and determine the power being dissipated in the 40 2 resistor at t = 2.5 ms. t=0 i(t) 30 Ω w 200 mA 4002 30 m 100 mA(arrow_forward7.2 At t = 0, the switch in the circuit shown moves instantaneously from position a to position b. a) Calculate v, for t≥ 0. b) What percentage of the initial energy stored in the inductor is eventually dissipated in the 4 resistor? 6Ω a w + 10 0.32 H3 403 6.4 A =0 b Answer: (a) -8e-10 V, t = 0; (b) 80%.arrow_forward
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