Question 1

&#10;The superposition method for calculating voltages and currents requires:&#10;A) opening the load resistance.&#10;B) taking one source at a time, with other voltage sources replaced by an open circuit.&#10;C) taking one source at a time, and replacing other sources with their internal resistances.&#10;D) replacing the load resistance with a short circuit.

Accepted Answer

The superposition method involves taking one source at a time while replacing all other independent voltage sources with short circuits and independent current sources with open circuits, which effectively means replacing them with their internal resistances (zero for ideal voltage sources and infinite for ideal current sources).

Question 2

An ideal current source has internal resistance.&#10;A) infinite&#10;B) low&#10;C) high&#10;D) zero

Accepted Answer

An ideal current source has infinite internal resistance to maintain a constant current output regardless of the load it is connected to.

Question 3

The superposition theorem is used to simplify circuit analysis where two or more sources are present.

Accepted Answer

The superposition theorem states that in a linear circuit with multiple sources, the voltage across (or current through) an element can be determined by considering each source independently while all other sources are replaced by their internal resistances, and then summing the effects. This simplifies the analysis of circuits with multiple sources.

Question 4

An ideal current source has infinite internal resistance.

Accepted Answer

An ideal current source is designed to provide a constant current regardless of the voltage across it, which implies it has infinite internal resistance to maintain the same current output under all conditions.

Question 5

Figure 8-2&#10;If two currents are in opposing directions through a branch of a circuit, in what direction will the net current flow?&#10;A) in the direction of the smaller current&#10;B) The net current always flows down through a resistor.&#10;C) in the direction of the larger current&#10;D) Opposing currents will always cancel each other out.

Accepted Answer

The net current in a branch of a circuit will flow in the direction of the larger current, as the larger current magnitude dictates the overall direction of flow when two currents oppose each other.

Question 6

An ideal current source produces an) value of current through a load, regardless of the value of the load.&#10;A) proportional&#10;B) decreasing&#10;C) increasing&#10;D) constant

Accepted Answer

An ideal current source is designed to provide a constant current through a load, irrespective of the load's resistance or any changes in it.

Question 7

An ideal voltage source has infinite internal resistance.

Accepted Answer

An ideal voltage source has zero internal resistance, allowing it to maintain a constant voltage output regardless of the current drawn from it.

Question 8

A practical current source has infinite internal resistance.

Accepted Answer

A practical current source has high, but not infinite, internal resistance to maintain a constant current output over a range of loads.

Question 9

The first step in Nortonizing a circuit is to short out the load.

Accepted Answer

When Nortonizing a circuit, the first step is to short out the load to determine the Norton current.

Question 10

What is the equivalent current source when VS = 100 V, RS = 40 Ω? A) I_S = 2.0 A, R_S = 40 Ω B) I_S = 2.5 A, R_S = 40 Ω C) I_S = 2.5 A, R_S = zero Ω D) I_S = 2.5 A, R_S = infinite

Accepted Answer

To find the equivalent current source, use the formula IS = VS / RS. Here, IS = 100 V / 40 Ω = 2.5 A. The resistance (RS) remains the same in the equivalent current source, so RS = 40 Ω.

Question 11

Calculate the voltage output of a source, when the source voltage equals 50 V, the source internal resistance is 10 &#937; and the load resistance is 50 &#937;.&#10;A) 8.33 V&#10;B) 40 V&#10;C) 41.67 V&#10;D) 10 V

Accepted Answer

The answer of Calculate the voltage output of a source,...

Question 12

&#10;Given the circuit in Figure 8-1, find the total current through the load.&#10;A) 12 mA&#10;B) 20 mA&#10;C) 1.2 mA&#10;D) 1.0 mA

Accepted Answer

The answer of   &#10;Given the circuit in Figure...

Question 13

Open circuit voltage refers to:&#10;A) the voltage taken across a high value load resistor.&#10;B) the output voltage with no load.&#10;C) the voltage taken across a low value load resistor.&#10;D) zero internal resistance.

Accepted Answer

The answer of Open circuit voltage refers to:&#10;A) the voltage...

Question 14

&#10;Given the circuit in Figure, Calculate VTH and RTH.&#10;A) VTH = 10 V, RTH = 50 &#937;&#10;B) VTH = 10 V, RTH = 150 &#937;&#10;C) VTH = 6.7 V, RTH = 150 &#937;&#10;D) VTH = 5.0 V, RTH = 50 &#937;

Accepted Answer

The answer of   &#10;Given the circuit in Figure,...

Question 15

Figure 8-2&#10;Maximum power is delivered to the load under what conditions?&#10;A) when the load resistance equals zero&#10;B) when the load resistance equals the source resistance&#10;C) when the load resistance is greater than the source resistance&#10;D) when the load resistance is open

Accepted Answer

The answer of   Figure 8-2&#10;Maximum power is delivered...

Question 16

A practical voltage source has infinite internal resistance.

Accepted Answer

The answer of A practical voltage source has infinite internal...

Question 17

Maximum power transfer occurs when the load resistance equals the source resistance.

Accepted Answer

The answer of Maximum power transfer occurs when the load...

Question 18

Figure 8-2&#10;Given the circuit in Figure 8-2, Calculate the total current through R2, using the superposition method.&#10;A) 133 mA&#10;B) 67 mA&#10;C) 16 mA&#10;D) 83 mA

Accepted Answer

The answer of   Figure 8-2&#10;Given the circuit in...

Question 19

Thevenin's theorem is used to simplify complex networks to a simple voltage source with its source resistance.

Accepted Answer

The answer of Thevenin's theorem is used to simplify complex...

Question 20

The internal resistance of an ideal voltage source is:&#10;A) infinite&#10;B) low&#10;C) zero&#10;D) high

Accepted Answer

The answer of The internal resistance of an ideal voltage...

Question 21

When converting a wye configuration with all equal resistors to a delta configuration, the delta resistor will always be _ times its related wye resistor.&#10;A) 6&#10;B) 5&#10;C) 4&#10;D) 3

Accepted Answer

The answer of When converting a wye configuration with all...

Question 22

Thevenin's theorem states that the Thevenin voltage is equal to:&#10;A) open circuit current at the networks terminals&#10;B) short circuit voltage at the networks terminals&#10;C) open circuit voltage at the networks terminals&#10;D) short circuit current at the networks terminals

Accepted Answer

The answer of Thevenin's theorem states that the Thevenin voltage...

Question 23

Power effects in a dc network cannot be determined using superposition because:&#10;A) power computations require a voltage and a current source in each circuit.&#10;B) power is proportional to the square of the current or voltage.&#10;C) open sources and shorted sources neither consume nor produce power.&#10;D) all voltage and current sources are ideal devices that consume no power.

Accepted Answer

The answer of Power effects in a dc network cannot...

Question 24

When using the superposition theorem on a two source network, if the current produced by one source is in one direction, while that produced by the other source is in the opposite direction through the same resistor:

A) all voltage sources were not properly converted to current sources.
B) the absolute values of the two currents add algebraically, and the direction is the same as the direction of the larger current.
C) the resulting current is the difference of the two and has the direction of the larger current.
D) a mistake in the sign of the result occurred.

Accepted Answer

The answer of When using the superposition theorem on a...

Question 25

&#10;&#10;-The first steps to Nortonizing a circuit are:&#10;A) open RL, determine RN, make VS = IN&#10;B) short RL, determine IL, make IL = IN&#10;$R$&#10; N&#10;C) short RL, determine RN, make VS = IN&#10;D) open RL, determine IL, make IL = IN&#10;$R$&#10; N

Accepted Answer

The answer of   &#10;&#10;-The first steps to Nortonizing...

Question 26

Under maximum power transfer conditions, which one is true?&#10;A) The algebraic sum of all resistances in the source equals the algebraic sum of all the resistances in the load.&#10;B) The equivalent load resistance is very large compared to the equivalent of the source.&#10;C) The Thevenin resistance of the source equals the equivalent resistance of the load.&#10;D) The equivalent load resistance is very small compared to the equivalent of the source.

Accepted Answer

The answer of Under maximum power transfer conditions, which one...

Question 27

When a thermistor is used in a basic Wheatstone bridge measuring circuit, the bridge becomes as the thermistor's resistance changes with .&#10;A) balanced, changes in current&#10;B) balanced, changes in light&#10;C) balanced, changes in pressure&#10;D) unbalanced, changes in temperature

Accepted Answer

The answer of When a thermistor is used in a...

Question 28

Given the circuit in Figure , Calculate the current I_N,) and R_N, with R_L disconnected. A) I_N = 296 mA, R_N = 59 Ω B) I_N = 296 mA, R_N = 174 Ω C) I_N = 27.1 mA, R_N = 59 Ω D) I_N = 27.1 mA, R_N= 14.6 Ω

Accepted Answer

The answer of   &#10;Given the circuit in Figure...

Question 29

Figure 8-4&#10;Given the circuit in Figure 8-4, Thevenize the bridge circuit between points &#34;A&#34; and &#34;B&#34;. Find the current flow through the load RL).&#10;A) 0.69 mA&#10;B) 1.92 mA&#10;C) 3.2 mA&#10;D) 0.45 mA

Accepted Answer

The answer of   Figure 8-4&#10;Given the circuit in...

Question 30

&#10;The concept that states the equivalency of two voltage sources means that for any given load resistance connected to the two sources, the same load voltage and load current are produced by both sources is called:&#10;A) junction equivalency&#10;B) loop equivalency&#10;C) terminal equivalency&#10;D) load equivalency

Accepted Answer

The answer of   &#10;The concept that states the...

Question 31

What is the symbol usually used inside a circle to designate a current source?&#10;A) an arrow&#10;B) a circle&#10;C) a current wave&#10;D) a sine wave

Accepted Answer

The answer of What is the symbol usually used inside...

Question 32

&#10;Convert the Delta network in Figure  into a Wye network.&#10;A) R1 = 25.7 k&#937;, R2 = 143.8 k&#937;, R3 = 78.3 k&#937;&#10;B) R1 = 42.1 k&#937;, R2 = 174.9 k&#937;, R3 = 78.3 k&#937;&#10;C) R1 = 37.9 k&#937;, R2 = 143.8 k&#937;, R3 = 64.8 k&#937;&#10;D) R1 = 25.7 k&#937;, R2 = 174.9 k&#937;, R3 = 64.8 k&#937;

Accepted Answer

The answer of   &#10;Convert the Delta network in...

Question 33

Delta to wye configurations are used in:&#10;A) non-sinusoidal networks&#10;B) polyphase circuits&#10;C) bridge circuits&#10;D) resonance circuits

Accepted Answer

The answer of Delta to wye configurations are used in:&#10;A)...

Question 34

Norton's theorem states that you can replace a dc network with an equivalent circuit consisting of:&#10;A) a current source and a parallel resistor&#10;B) a current source and a series resistor&#10;C) a voltage source and a series resistor&#10;D) a voltage source and a parallel resistor

Accepted Answer

The answer of Norton's theorem states that you can replace...

Question 35

Which of these statements is true of two or more current sources in parallel?&#10;A) They violate Kirchhoff's current law.&#10;B) A series resistor must be placed in each branch.&#10;C) They may be replaced by one current source.&#10;D) The magnitude of the combined current is always less than the smallest individual current.

Accepted Answer

The answer of Which of these statements is true of...

Deck 8: Circuit Theorems and Conversions