Explore topic-wise MCQs in Electronics.

This section includes 111 Mcqs, each offering curated multiple-choice questions to sharpen your Electronics knowledge and support exam preparation. Choose a topic below to get started.

1.

Components or combinations of components with common currents, in a series–parallel circuit, are in:

A. parallel with each other
B. series with each other
C. either series or parallel with each other
D. none of the above
Answer» D. none of the above
Discussion
2.

In a series–parallel circuit, individual component power dissipations are calculated using:

A. individual component parameters
B. a percent of the voltage division ratio squared
C. total current squared multiplied by the resistor values
D. a percent of the total power depending on resistor ratios
Answer» B. a percent of the voltage division ratio squared
Discussion
3.

The first goal(s) to accomplish in analyzing a complex series–parallel circuit is to:

A. equate all parallel components
B. equate all series components
C. solve for all the voltage drops
D. solve for the total current and resistance
Answer» E.
Discussion
4.

The total resistance in the given circuit can be found using the formula:RT = R1 + R2 || R3 || R4.

A. True
B. False
Answer» B. False
Discussion
5.

Series components in a series–parallel circuit may be in series with other _______________ components, or with other _______________ components.

A. individual, combinations of
B. series, parallel
C. parallel, series
D. shunt, parallel
Answer» B. series, parallel
Discussion
6.

In a series–parallel circuit consisting of R1 and R2 in series and connected in parallel with R3, if R1 opens, then R2's voltage will:

A. increase
B. decrease
C. remain the same
D. cannot tell
Answer» C. remain the same
Discussion
7.

Observed voltages not being shared identify components in parallel in a series–parallel circuit.

A. True
B. False
Answer» C.
Discussion
8.

When analyzing series–parallel circuit currents, you should start with the current in the branch farthest from the source.

A. True
B. False
Answer» C.
Discussion
9.

If a series–parallel circuit has all 30-ohm resistors, what is the total resistance when R1 is in series with a parallel circuit consisting of R2 and R3?

A. 10 ohms
B. 20 ohms
C. 45 ohms
D. 90 ohms
Answer» D. 90 ohms
Discussion
10.

What determines if resistor connections are in series, parallel, or series–parallel?

A. the voltage source
B. the power source
C. resistance
D. current flow
Answer» E.
Discussion
11.

A certain circuit is composed of two parallel resistors. The total resistance is 1,403 . One of the resistors is 2 k. The other resistor value is

A. 1,403
B. 4.7 k
C. 2 k
D. 3,403
Answer» C. 2 k
Discussion
12.

In a certain five-step R/2R ladder network, the smallest resistor value is 1 k. The largest value is

A. indeterminable
B. 2 k
C. 10 k
D. 20 k
Answer» C. 10 k
Discussion
13.

A galvanometer is a meter that measures small amounts of voltage.

A. True
B. False
Answer» C.
Discussion
14.

A smaller-value load resistor will cause the output voltage to change more than a larger-value one.

A. True
B. False
Answer» B. False
Discussion
15.

A voltage divider consists of two 68 kΩ resistors and a 24 V source. The unknown output voltage is

A. 12 V
B. 24 V
C. 0 V
D. 6 V
Answer» B. 24 V
Discussion
16.

A 12 kΩ resistor, a 15 kΩ resistor, and a 22 kΩ resistor are in series with two 10 kΩ resistors that are in parallel. The source voltage is 75 V. Current through the 15 kΩ resistor is approximately

A. 14 mA
B. 1.4 mA
C. 5 mA
D. 50 mA
Answer» C. 5 mA
Discussion
17.

The higher the range setting, the less the internal resistance and the greater the load effect of the voltmeter on a circuit.

A. True
B. False
Answer» C.
Discussion
18.

A balanced Wheatstone bridge consists of an RV of 3,500 Ω, an R2 of 200 Ω, and an R3 of 680 Ω. The value of RUNK is

A. 680 Ω
B. 1,029 Ω
C. 200 Ω
D. 880 Ω
Answer» C. 200 Ω
Discussion
19.

In a certain five-step R/2R ladder network, the smallest resistor value is 1 kΩ. The largest value is

A. Indeterminable
B. 2 kΩ
C. 10 kΩ
D. 20 kΩ
Answer» C. 10 kΩ
Discussion
20.

A Wheatstone bridge consists of four resistors in parallel.

A. True
B. False
Answer» C.
Discussion
21.

The parallel combination of a 470 Ω resistor and a 1.2 kΩ resistor is in series with the parallel combination of three 3 kΩ resistors. A 200 V source is connected across the circuit. The resistor with the most current has a value of

A. 470 Ω or 1.2 kΩ
B. 3 kΩ
C. 470 Ω
D. 1.2 kΩ
Answer» D. 1.2 kΩ
Discussion
22.

Two equal-value resistors in series will divide the source voltage equally.

A. True
B. False
Answer» B. False
Discussion
23.

The parallel combination of a 6.8 kΩ resistor and a 10 kΩ resistor is in series with the parallel combination of a 2.2 kΩ resistor and a 1 kΩ resistor. A 100 V source is connected across the circuit. The resistor(s) with the greatest voltage drop is (are)

A. 6.8 kΩ
B. 2.2 kΩ
C. 6.8 kΩ and 10 kΩ
D. 2.2 kΩ and 1 kΩ
Answer» D. 2.2 kΩ and 1 kΩ
Discussion
24.

Three 10 kΩ resistors are connected in series. A 20 kΩ resistor is connected in parallel across one of the 10 kΩ resistors. The voltage source is 24 V. The total current in the circuit is

A. 900 μA
B. 9 mA
C. 90 mA
D. 800 μA
Answer» B. 9 mA
Discussion
25.

A certain Wheatstone bridge has the following resistor values: R1 = 10 kΩ, R2 = 720 Ω, and R4 = 2.4 kΩ. The unknown resistance is

A. 24 Ω
B. 2.4 Ω
C. 300 Ω
D. 3,000 Ω
Answer» E.
Discussion
26.

A Wheatstone bridge is often shown in a "diamond" configuration.

A. True
B. False
Answer» B. False
Discussion
27.

On which of the following voltage range settings will a voltmeter present the minimum load on a circuit?

A. 1 V
B. 50 V
C. 500 V
D. 1,000 V
Answer» E.
Discussion
28.

The parallel combination of a 470 Ω resistor and a 1.5 kΩ resistor is in series with the parallel combination of five 1 kΩ resistors. The source voltage is 50 V. The percentage of the load current through any single 1 KΩ resistor is

A. 25 %
B. 20 %
C. 100 %
D. 50 %
Answer» C. 100 %
Discussion
29.

A resistor ladder network is a special type of series-parallel circuit.

A. True
B. False
Answer» B. False
Discussion
30.

Using the current-divider formula, you can find the current in any branch of a series-parallel circuit.

A. True
B. False
Answer» B. False
Discussion
31.

Using Kirchhoff's voltage law, you can find the voltages across certain parts of a series-parallel circuit.

A. True
B. False
Answer» B. False
Discussion
32.

A certain circuit is composed of two parallel resistors. The total resistance is 1,403 Ω. One of the resistors is 2 kΩ. The other resistor value is

A. 1,403 Ω
B. 4.7 kΩ
C. 2 kΩ
D. 3,403 Ω
Answer» C. 2 kΩ
Discussion
33.

A voltage divider consists of two 100 kΩ resistors and a 12 V source. What will the output voltage be if a load resistor of 1 MΩ is connected to the output?

A. 0.57 V
B. 6 V
C. 12 V
D. 5.7 V
Answer» E.
Discussion
34.

Two 3.3 kΩ resistors are in series and this series combination is in parallel with a 4.7 kΩ resistor. The voltage across one of the 3.3 kΩ resistors is 12 V. The voltage across the 4.7 kΩ resistor is

A. 24 V
B. 12 V
C. 0 V
D. 6 V
Answer» B. 12 V
Discussion
35.

To derive 18 V and 12 V from a 24 V supply requires a voltage divider with three taps.

A. True
B. False
Answer» B. False
Discussion
36.

The parallel combination of a 470 Ω resistor and a 680 Ω resistor is in series with the parallel combination of four 2 kΩ resistors. The total resistance is

A. 1,650 Ω
B. 1,078 Ω
C. 77.8 Ω
D. 778 Ω
Answer» E.
Discussion
37.

Two 1.2 kΩ resistors are in series and this series combination is in parallel with a 3.3 kΩ resistor. The total resistance is

A. 138 Ω
B. 1,389 Ω
C. 5,700 Ω
D. 880 Ω
Answer» C. 5,700 Ω
Discussion
38.

A certain voltage divider consists of two 12 kΩ resistors in series. Which of the following load resistors will have the most effect on the output voltage?

A. 1 MΩ
B. 24 kΩ
C. 18 kΩ
D. 12 kΩ
Answer» E.
Discussion
39.

A certain voltage divider consists of three 1 kΩ resistors in series. Which of the following load resistors will have the least effect on the output voltage?

A. 1 MΩ
B. 100 kΩ
C. 1 kΩ
D. 330 Ω
Answer» B. 100 kΩ
Discussion
40.

A 6 V battery output is divided down to obtain two output voltages. Three 2.2 kΩ resistors are used to provide the two taps. The two output voltages are

A. 2 V, 4 V
B. 2 V, 2 V
C. 2 V, 6 V
D. 4 V, 6 V
Answer» B. 2 V, 2 V
Discussion
41.

The internal resistance of a 20,000 ohm/volt voltmeter set on its 5 V range is

A. 20,000 Ω
B. 100,000 Ω
C. 200,000 Ω
D. 1,000,000 Ω
Answer» C. 200,000 Ω
Discussion
42.

A Wheatstone bridge may be used to determine the value of an unknown resistance.

A. 1
B.
Answer» B.
Discussion
43.

If the voltage between points A and B equals 9 V in the given circuit, then VR3 equals ______.

A. 0.9 V
B. 8.1 V
C. 9 V
D. More information is needed to find VR3.
Answer» C. 9 V
Discussion
44.

Opens and shorts are typical problems that occur in electric circuits.

A. 1
B.
Answer» B.
Discussion
45.

The total resistance in the circuit is 1.6 k.

A. 1
B.
Answer» B.
Discussion
46.

In the given circuit, the voltage at point A equals ______.

A. –10 V
B. +1 V
C. +9 V
D. +10 V
Answer» E.
Discussion
47.

The total resistance in the given circuit can be found using the formula: RT = R1 + R2 || R3 || R4.

A. 1
B.
Answer» B.
Discussion
48.

If R3 opens in the given circuit, the total resistance (RT) between points A and B equals ____.

A. 900
B. 100
C. 110
D. infinite resistance
Answer» D. infinite resistance
Discussion
49.

Attaching a 6 k load to a voltage divider will cause a smaller decrease in the output voltage than will attaching a 5 k load.

A. 1
B.
Answer» B.
Discussion
50.

When analyzing series–parallel circuit currents, you should start with the current in the branch farthest from the source.

A. 1
B.
Answer» C.
Discussion