Electric Circuit Analysis/Circuit Analysis Quiz 2



{| width=100%  { {| cellspacing="0" cellpadding="0" style="margin:0em 0em 1em 0em; width:100%" What is the significance of a negative ( - ) sign from a calculation when solving circuit problems? - (A) None - (B) It means you did something wrong on your calculation + (C) Real resulting current or Voltage is in the opposite direction to one assumed - (D) You probably used a smaller scaling factor
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{ {| cellspacing="0" cellpadding="0" style="margin:0em 0em 1em 0em; width:100%" What will be the reading on the voltmeter for the following circuit? - (A) 7.5V - (B) 0V - (C) 2.5V + (D) 9V
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{ {| cellspacing="0" cellpadding="0" style="margin:0em 0em 1em 0em; width:100%" Which Resistor in the Parallel brach of the following circuit will always have most current flowing through irrespective of the amount of the supply voltage? + (A) R4 - (B)  R2 - (C)  R3 - (D)  None
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{ {| cellspacing="0" cellpadding="0" style="margin:0em 0em 1em 0em; width:100%" Which one of the following statements is most accurate? + (A) KVL is concerned with Voltage Drops - (B) KVL is calculated at Super Nodes only - (C) Both (A) and (B) - (D  None
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{ {| cellspacing="0" cellpadding="0" style="margin:0em 0em 1em 0em; width:100%" KCL is used when solving circuits with ... - (A) Closed Loops + (B) Sufficient Nodes / Junctions - (C) Capacitors - (D  None
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{ {| cellspacing="0" cellpadding="0" style="margin:0em 0em 1em 0em; width:100%" Which method would be simpler to implement in the following circuit? + (A) KCL - (B) Millman's theorem - (C) KVL - (D) Norton
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{ {| cellspacing="0" cellpadding="0" style="margin:0em 0em 1em 0em; width:100%" Nodal Analysis applies the following principles … - (A) KVL & Ohm's Law + (B) KCL & Ohm's Law - (C) KVL & Superposition - (D) KCL & Superposition
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{ {| cellspacing="0" cellpadding="0" style="margin:0em 0em 1em 0em; width:100%" Which of the following statements is true? - (A) Mesh Analysis is easiest when a circuit has more than two nodes - (B) Mesh Analysis is more difficult than Nodal Analysis + (C) Mesh Analysis employs KVL to solve loop currents - (D) All of the above
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{ {| cellspacing="0" cellpadding="0" style="margin:0em 0em 1em 0em; width:100%" Given the following problem. which method would yield simpler equations for solving circuit elements? + (A) Mesh Analysis - (B) Nodal Analysis - (C) KVL - (D) Thervenin
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