ASVAB Electronics Information Practice Test 994914 Results

Your Results Global Average
Questions 5 5
Correct 0 3.31
Score 0% 66%

Review

1

A __________ electric current produces a magnetic field proportional to the amount of current flow.

61% Answer Correctly

moving

low voltage

high voltage

stationary


Solution

A moving electric current produces a magnetic field proportional to the amount of current flow. This magnetic field can be made stronger by winding the wire into a coil and further enhanced if done around an iron containing (ferrous) core.


2

What is the potential difference in an electrical circuit a measure of?

58% Answer Correctly

the current at a specific location in the circuit

the load at a specific location in the circuit

the voltage at a specific location in the circuit

the resistance at a specific location in the circuit


Solution

Electrons flow from an area of high concentration to an area of low concentration. A high voltage indicates a high concentration of electrons that creates a greater potential for electron flow than a low voltage. When applied to a load, voltage creates electricity and potential difference is the measure of voltage at a specific location in an electrical circuit.


3

Which of the following can conduct electricity under some conditions but not others?

83% Answer Correctly

resistor

insulator

semiconductor

conductor


Solution

Semiconductors have valence shells that are exacly half full and can conduct electricity under some conditions but not others. This property makes them useful for the control of electrical current.


4

The sum of the voltage drops across each resistor in a __________ circuit will equal the total voltage applied to the circuit.

54% Answer Correctly

parallel

closed

series-parallel

series


Solution

A series circuit has only one path for current to flow. In a series circuit, current (I) is the same throughout the circuit and is equal to the total voltage (V) applied to the circuit divided by the total resistance (R) of the loads in the circuit. The sum of the voltage drops across each resistor in the circuit will equal the total voltage applied to the circuit.


5

Which of the following statements about a capacitor is false?

77% Answer Correctly

you should always discharge any capacitors before working on an electronic circuit

it is safe to touch a capacitor with your hands as long as it is small

a capacitor remains charged even after the input voltage is removed

to discharge a capacitor safely, use a high-wattage resistor comparable to the capacitance of the capacitor


Solution

The purpose of a capacitor is to retain electric charge and it will do so even after its input voltage is removed. After the input voltage is removed, the capacitor will slowly discharge but, depending on the size and characteristics of the capacitor, discharging could take from a few minutes to a few years. So, it's never safe to touch a capacitor with your hands and you should make sure to discharge any capacitors in a circuit before working on it using an appropriately high-wattage resistor or a capacitor discharge tool.