David general Fundamentals of Electricity and Electronics

(Refer to Figure 22.) Which illustration is correct concerning bias application and current (positive charge) flow?. 1. 2. 3.

What schematic symbol represents a current limiter?. A triangle and a Z-like symbol across a horizontal line. One triangle pointing to a vertical line. Two triangles pointing to each other with a line on both sides of the triangles.

What factors strengthen a coil inductor?. Limiting and separating the coils. Adding and separating the coils. Adding coils close together.

Through which material will magnetic lines of force pass the most readily?. Copper. lron. Aluminum.

The working voltage of a capacitor in an AC circuit should be. equal to the highest applied voltage. at least 20 percent greater than the highest applied voltage. at least 50 percent greater than the highest applied voltage.

When different rated capacitors are connected in series in a circuit, the total capacitance is. less than the capacitance of the lowest rated capacitor. greater than the capacitance of the highest rated capacitor. equal to the sum of all the capacitances.

Capacitors are sometimes used in DC circuits to. counteract inductive reactance at specific locations. smooth out slight pulsations in current/voltage. assist in stepping voltage and current up and/or down.

What is the total capacitance of a circuit containing three capacitors in parallel with capacitances of .02 microfarad, .05 microfarad, and .10 microfarad, respectively?. 170 μF. 0.125 μF. 0125 μF.

The amount of electricity a capacitor can store is directly proportional to the. distance between the plates and inversely proportional to the plate area. plate area and is not affected by the distance between the plates. plate area and inversely proportional to the distance between the plates.

What is the total capacitance of a certain circuit containing three capacitors with capacitances of .25 microfarad, .03 microfarad, and .12 microfarad, respectively? (Note: Cr = C1 + C2 + Cs). 4 μF. 04 pF. 04 μF.

(Refer to Figure 2.) What is the total capacitance of a certain circuit containing three capacitors with capacitances of .02 microfarad, .05 microfarad, and .10 microfarad, respectively?. .170 μF. 0.125 pF. .0125 μF.

What does the letter Q symbolize when measuring electrical charge?. Farad. Electron. Coulomb.

An increase in which of the following factors will cause an increase in the inductive reactance of a circuit?. Inductance and frequency. Resistance and voltage. Resistance and capacitive reactance.

Transfer of electric energy from one circuit to another without the aid of electrical connections. is called induction. is called capacitance. can cause excessive arcing and heat, and as a result is practical for use only with low voltages/amperages.

When different rated capacitors are connected in parallel in a circuit, the total capacitance is (Note: Cr = C1 + C2 + C3 . . .). less than the capacitance of the lowest rated capacitor. equal to the capacitance of the highest rated capacitor. equal to the sum of all the capacitances.

The term that describes the combined resistive forces in an AC circuit is. resistance. reactance. impedance.

When inductors are connected in series in a circuit, the total inductance (where the magnetic fields of each inductor do not affect the others) is (Note: Lr = L1 + L2 + L3 . . .). less than the inductance of the lowest rated inductor. equal to the inductance of the highest rated inductor. equal to the sum of the individual inductances.

What is the opposition to the flow of AC produced by an electromagnetic field (EMF) with generated back voltage called?. Inductive reactance. Capacitive reactance. Mutual inductance.

(Refer to F igure 3.) When more than two inductors of different inductances are connected in parallel in a circuit, the total inductance is. less than the inductance of the lowest rated inductor. equal to the inductance of the highest rated inductor. equal to the sum of the individual inductances.

The opposition offered by a coil to the flow of alternating current (ignoring resistance) is called. impedance. reluctance. inductive reactance.

When referencing resistance in a parallel DC circuit, which of the following statements is true?. The current is equal in all portions of the circuit. The total current is equal to the sum of the currents through the individual branches of the circui. The current in amperes can be found by dividing the source voltage in volts by the sum of the resistors in ohms.

In an AC circuit, the effective voltage is. equal to the maximum instantaneous voltage. greater than the maximum instantaneous voltage. less than the maximum instantaneous voltage.

Convert farads to microfarads by. multiplying farads by 10 to the power of 6. multiplying picofarads by 10 to the power of 6. multiplying microfarads by 10 to the power of 6.

Unless otherwise specified, any values given for current or voltage in an AC circuit are assumed to be. instantaneous values. effective values. maximum values.

Convert farads to picofarads by: multiplying farads by 10 to the power of 12. multiplying microfarads by 10 to the power of -12. multiplying picofarads by 10 to the power of 12.

(Refer to Figure 5.) What is the impedance of an AC-series circuit consisting of an inductor with a reactance of 1 0 ohms, a capacitor with a reactance of 4 ohms, • and a resistor with a resistance of 8 ohms?. 22 ohms. 5.29 ohms. 10 ohms.

Which requires the most electrical power during operation? (Note: 1 horsepower = 746 watts). A 12-volt motor requiring 8 amperes. Four 30-watt lamps in a 12-volt parallel circuit. Two lights requiring 3 amperes each in a 24-volt parallel system.

Refer to F igure 9.) How many instruments (voltmeters and ammeters) are installed correctly?. Three. One. Two.

. 002 kV equals. 20 volts. 2.0 volts. .2 volt.

The correct way to connect a test voltmeter in a circuit is. in series with a unit. between the source voltage and the load. in parallel with a unit.

What is the basic unit of electrical quantity?. Electromotive force. Ampere. Coulomb.

The potential difference between two conductors which are insulated from each other is measured in. volts. amperes. coulombs.

What will a voltmeter read if properly connected across a closed switch in a circuit with electrical power on?. Voltage drop in the component(s) the switch is connected to. System voltage. Zero voltage.

A 24-volt source is required to furnish 48 watts to a parallel circuit consisting of four resistors of equal value. What is the voltage drop across each resistor?. 12 volts. 6 volts. 24 volts.

Which term means .001 ampere?. Microampere. Kiloampere. Milliampere.

(Refer to Figure 10.) What is the measured voltage of the series-parallel circuit between terminals A and B?. 1.5 volts. 3.0 volts. 4.5 volts.

(Refer to Figure 11.) Find the voltage across the 8-ohm resistor. 8 volts. 20.4 volts. 24 volts.

(Refer to Figure 11.) Find the total current flowing in the wire between points C and D. 6.0 amperes. 2.4 amperes. 3.0 amperes.

The voltage drop in a circuit of known resistance is dependent on. the voltage of the circuit. only the resistance of the conductor and does not change with a change in either voltage or amperage. the amperage of the circuit.

required to supply to a circuit containing five lamps in parallel, three of which have a resistance of 6 ohms each and two of which have a resistance of 5 ohms each?. 1.11 amperes. 1 ampere. 25.23 amperes.

(Refer to Figure 13.) Determine the total current flow in the circuit. 0.2 ampere. 1.4 amperes. 0.8 ampere.

Which effect does not apply to the movement of electrons flowing in a conductor?. Magnetic energy. Thermal energy. Static energy.

In a parallel circuit with three 6-ohm resistors across a 12-volt battery, what is the total current (11) value in the circuit?. 2 amps. 6 amps. 12 amps.

(Refer to Figure 12.) Find the total resistance of the circuit. 16 ohms. 2.6 ohms. 21.2 ohms.

(Refer to Figure 64.) A 24-volt source is required to furnish 48 watts to a parallel circuit consisting of two resistors of equal value. What is the value of each resistor?. 24 ohms. 12 ohms. 6 ohms.

What is the operating resistance of a 30-watt light bulb designed for a 28-volt system?. 1.07 ohms. 26 ohms. 0.93 ohm.

Which is correct in reference to electrical resistance?. Two electrical devices will have the same combined resistance if they are connected in series as they will have if connected in parallel. If one of three bulbs in a parallel lighting circuit is removed, the total resistance of the circuit will become greater. An electrical device that has a high resistance will use more power than one with a low resistance with the same applied voltage.

Refer to Figure 14.) The total resistance of the circuit is. 25 ohms. 35 ohms. 17 ohms.

Refer to Figure 6.) If resistor R5 is disconnected at the junction of R4 and R3 as shown, what will the ohmmeter read?. 2.76 ohms. 3 ohms. 12 ohms.

Which of these will cause the resistance of a conductor to decrease. Decrease the length or the cross-sectional area. Decrease the length or increase the cross-sectional area. lncrease the length or decrease the cross-sectional area.

(Refer to Figure 7.) If resistor R3 is disconnected at terminal D, what will the ohmmeter read?. Infinite resistance. 10 ohms. 20 ohms.

(Refer to Figure 64.) A 48-volt source is required to furnish 192 watts to a parallel circuit consisting of three resistors of equal value. What is the value of each resistor?. 36 ohms. 4 ohms. 12 ohms.

(Refer to Figure 8.) With an ohmmeter connected into the circuit as shown, what will the ohmmeter read?. 20 ohms. lnfinite resistance. 10 ohms.

How much power must a 24-volt generator furnish to a system which contains the following loads? Unit Rating One motor (75 percent efficient) ............................ 1/5 hp Three position lights ................................. 20 watts each One heating element. ............................................ 5 amp One anticollision light ............................................ 3 amp (Note: 1 horsepower = 746 watts). 402 watts. 385 watts. 450 watts.

When calculating power in a reactive or inductive AC circuit, the true power is. more than the apparent power. less than the apparent power in a reactive circuit and more than the apparent power in an inductive circuit. less than the apparent power.

A 12-volt electric motor has 1,000 watts input and 1 horsepower output. Maintaining the same efficiency, how much input power will a 24-volt, 1-horsepower electric motor require? (Note: 1 horsepower = 746 watts). 1 ,000 watts. 2,000 watts. 500 watts.

Refer to Figure 4.) How much power is being furnished to the circuit?. 575 watts. 2,875 watts. 2,645 watts.

A 24-volt, 1-horsepower DC electric motor that is 80 percent efficient requires 932.5 watts. How much power will a 12-volt, 1-horsepower DC electric motor that is 75 percent efficient require? (Note: 1 horsepower = 746 watts). 932.5 watts. 1,305.5 watts. 994.6 watts.

Which requires the most electrical power? (Note: 1 horsepower = 746 watts). A 1/5-horsepower, 24-volt motor which is 75 percent efficient. Four 30-watt lamps arranged in a 12-volt parallel circuit. A 24-volt anticollision light circuit consisting of two light assemblies which require 3 amperes each during operation.

A 24-volt, 1-horsepower DC electric motor that is 80 percent efficient requires 932.5 watts. How much power will a 12-volt, 1-horsepower DC electric motor that is 75 percent efficient require? (Note: 1 horsepower = 746 watts). 932.5 watts. 1,305.5 watts. 994.6 watts.

What unit is used to express electrical power?. Volt. Watt. Ampere.

What happens to the current in a voltage step-up transformer with a ratio of 1 to 4?. The current is stepped down by a 1 to 4 ratio. The current is stepped up by a 1 to 4 ratio. The current does not change.

A circuit has an applied voltage of 30 volts and a load consisting of a 10-ohm resistor in series with a 20-ohm resistor. What is the voltage drop across the 10-ohm resistor?. 10 volts. 20 volts. 30 volts.

A 14-ohm resistor is to be installed in a series circuit carrying .05 ampere. How much power will the resistor be required to dissipate?. At least .70 milliwatt. At least 35 milliwatts. Less than .035 watt.

A cabin entry light of 10 watts and a dome light of 20 watts are connected in parallel to a 30-volt source. If the voltage across the 10-watt light is measured, it will be. equal to the voltage across the 20-watt light. half the voltage across the 20-watt light. one-third of the input voltage.

If three resistors of 3 ohms, 5 ohms, and 22 ohms are connected in series in a 28-volt circuit, how much current will flow through the 3-ohm resistor?. 9.3 amperes. 1.05 amperes. 0.93 ampere.

In a parallel circuit with four 6-ohm resistors across a 24-volt battery, what is the total voltage across resistor-three (VR3) in the circuit?. 6 volts. 18 volts. 24 volts.

Which is correct concerning a parallel circuit?. Total resistance will be smaller than the smallest resistor. Total resistance will decrease when one of the resistances is removed. Total voltage drop is the same as the total resistance.

If each cell, connected in series, equals 2 volts, how would a 12-cell lead acid battery be rated?. 24 volts. 12 volts. 6 volts.

Which statement regarding the hydrometer reading of a lead-acid storage battery electrolyte is true?. The hydrometer reading does not require a temperature correction if the electrolyte temperature is 80°F. A specific gravity correction should be added to the hydrometer reading if the electrolyte temperature is below 59°F. The hydrometer reading will give a true indication of the capacity of the battery regardless of the electrolyte temperature.

A lead-acid battery with 12 cells connected in series (no-load voltage = 2.1 volts per cell) furnishes 10 amperes to a load of 2-ohms resistance. T he internal resistance of the battery in this instance is. 0. 52 ohm. 2. 52 ohms. 5.0 ohms.

A fully charged lead-acid battery will not freeze until extremely low temperatures are reached because. the acid is in the plates, thereby increasing the specific gravity of the solution. most of the acid is in the solution. increased internal resistance generates sufficient heat to prevent freezing.

If electrolyte from a lead-acid battery is spilled in the battery compartment, which procedure should be followed?. Apply boric acid solution to the affected area followed by a water rinse. Rinse the affected area thoroughly with clean water. Apply sodium bicarbonate solution to the affected area followed by a water rinse.

What determines the amount of current which will flow through a battery while it is being charged by a constant voltage source?. The total plate area of the battery. The state-of-charge of the battery. The ampere-hour capacity of the battery.

Which of the following statements is/are generally true regarding the charging of several aircraft batteries together? 1. Batteries of different voltages (but similar capacities) can be connected in series with each other across the charger, and charged using the constant current method. 2. Batteries of different ampere-hour capacity and same voltage can be connected in parallel with each other across the charger, and charged using the constant voltage method. 3. Batteries of the same voltage and same ampere-hour capacity must be connected in series with each other across the charger, and charged using the constant current method. 3. 2 and 3. 1 and 2.

Which condition is an indication of improperly torqued cell link connections of a nickel-cadmium battery?. Light spewing at the cell caps. Toxic and corrosive deposits of potassium carbonate crystals. Heat or burn marks on the hardware.

The presence of any small amount of potassium carbonate deposits on the top of nickel-cadmium battery cells in service is an indication o. normal operation. excessive gassing. plate sulfation.

The method used to rapidly charge a nickelcadmium battery utilizes. constant current and constant voltage. constant current and varying voltage. constant voltage and varying current.

What is the likely result, if any, of servicing and charging nickel-cadmium and lead-acid batteries together in the same service area?. The electrolytes in each battery are the same, so there are no significant differences. The nickel-cadmium would not be affected, but the lead-acid battery could become contaminated. Contamination of both types of batteries would occur.

The purpose of providing a space underneath the plates in a lead acid batter's cell container is to. prevent sediment buildup from contacting the plates and causing a short circuit. allow for convection of the electrolyte in order to provide for cooling of the plates. ensure that the electrolyte quantity ratio to the number of plates and plate area is adequate.

Which of the following best describes the operating principal in a nickel-cadmium battery installed in an aircraft?. At full charge, the electrolyte will be at its lowest level and should be filled. To completely charge a nickel-cadmium battery, some gassing must take place; thus, some water will be used. When positive plates slowly give up oxygen, which is regained by the negative plates, the battery is charging.

During discharge, nickel-cadmium batteries will show a lower liquid level than when at full charge because. a chemical action causes the electrolyte to evaporate through the vents. current leakage from individual cells causes a rise in temperature. the electrolyte becomes absorbed into the plates.

The electrolyte of a nickel-cadmium battery is the lowest when the battery is. being charged. in a discharged condition. under a heavy load condition.

How can the state-of-charge of a nickel-cadmium battery be determined?. By measuring the specific gravity of the electrolyte. By a measured discharge. By the level of the electrolyte.

The electrolyte of a nickel cadmium battery is highest when the battery is. in a fully charged condition. in a discharged condition. under a no-load condition.

What may result if water is added to a nickel-cadmium battery when it is not fully charged?. Excessive electrolyte dilution. Excessive spewing is likely to occur during the charging cycle. No adverse effects since water may be added anytime.

The end-of-charge voltage of a 19-cell nickel-cadmium battery, measured while still on charge,. must be 1.2 to 1.3 volts per cell. must be 1 .4 volts per cell. depends upon its temperature and the method used for charging.

When a charging current is applied to a nickel cadmium battery, the cells emit gas. toward the end of the charging cycle. throughout the charging cycle. throughout the charging cycle.

In nickel-cadmium batteries, a rise in cell temperature. causes an increase in internal resistance. causes a decrease in internal resistance. increases cell voltage.

The basis for transformer operation in the use of alternating current is mutual. inductance. capacitance. reactance.

Which of the following best describes the contributing factors to thermal runaway in a nickel-cadmium battery installed in an aircraft?. High internal resistance intensified by high cell temperatures and a high current discharge/charge rate in a constant potential (voltage) charging system. Low internal resistance intensified by high cell temperatures and a high voltage discharge/charge rate in a constant current charging system. Low internal resistance intensified by high cell temperatures and a high current discharge/charge rate in a constant potential (voltage) charging system.

A thermal switch, or thermal protector, as used in an electric motor, is designed to. close the integral fan circuit to allow cooling of the motor. open the circuit in order to allow cooling of the motor. reroute the circuit to ground.

Which of the following is commonly used as a rectifier in electrical circuits?. Diodes and anodes. Diodes and cathodes. Diodes.

Diodes are used in electrical power supply circuits primarily as. switches. rectifiers. relays.

orward biasing of a solid-state device will cause the device to. conduct via zener breakdown. conduct. turn off.

In a P-N-P transistor application, the solid-state device is turned on when the. base is negative with respect to the emitter. base is positive with respect to the emitter. emitter is negative with respect to the base.

(Refer to Figure 24.) Which statement concerning the depicted logic gate is true?. Any input being 1 will produce a 0 output. Any input being 1 will produce a 1 output. AII inputs must be 1 to produce a 1 output.

In an N-P-N transistor application, the solid-state device is turned on when the. emitter is positive with respect to the base. base is negative with respect to the emitter. base is positive with respect to the emitter.

Refer to Figure 25.) In a functional and operating circuit, the depicted logic gate's output will be 0. only when all inputs are 0. when all inputs are 1. when one or more inputs are 0.

Typical application for zener diodes is as. full-wave rectifiers. half-wave rectifiers. voltage regulators.

(Refer to Figure 26.) Which of the logic gate output conditions is correct with respect to the given inputs?. 1. 2. 3.

Which of the following logic gates will provide an active high out only when all inputs are different?. XNOR. NAND. XOR.

(Refer to Figure 16.) What will be the effect if the PCO relay fails to operate when the left-hand tank is selected?. The fuel pressure crossfeed valve will not open. The fuel tank crossfeed valve open light will illuminate. The fuel pressure crossfeed valve open light will not illuminate.

Electrostatic fields are also known as. dielectric fields. electrostatic fields. static fields.

(Refer to Figure 16.) The TCO relay will operate if 24-volts DC is applied to the bus and the fuel tank selector is in the. right-hand tank position. crossfeed position. left-hand tank position.

Refer to Figure 15.) Wire 7 is used to. close the PUSH-TO-TEST circuit. open the UP indicator light circuit when the landing gear is retracted. close the UP indicator light circuit when the landing gear is retracted.

Refer to Figure 15.) When the landing gear is down, the green light will not come on if an open occurs in wire. 7. 6. 17.

(Refer to Figure 16.) With power to the bus and the fuel selector switched to the right-hand tank, how many relays in the system are operating?. Three. Two. Four.

(Refer to Figure 16.) When electrical power is applied to the bus, which relays are energized?. PCC and TCC. TCC and TCO. PCO and PCC.

Refer to Figure 17.) The electrical symbol represented at number 5 is a variable. inductor. resistor. capacitor.

(Refer to Figure 16.) Energize the circuit with the fuel tank selector switch selected to the left-hand position. Using the schematic, identify the switches that will change position. 5, 9, 10, 11, 12, 13, and 15. 3, 5, 6, 7, 11, and 13. 5, 6, 11, 12, 13, 15, and 16.

(Refer to Figure 18.) When the landing gear is up and the throttles are retarded, the warning horn will not sound if an open occurs in wire. 4. 2. 9.

(Refer to Figure 18.) The control valve switch must be placed in the neutral position when the landing gear is down to. permit the test circuit to operate. prevent the warning horn from sounding when the throttles are closed. remove the ground from the green light.

(Refer to Figure 17.) Which of the components is a potentiometer?. 5. 3. 11.

(Refer to Figure 19.) Under which condition will a ground be provided for the warning horn through both gear switches when the throttles are closed?. Right gear up and left gear down. Both gears up and the control valve out of neutral. Left gear up and right gear down.

What is the purpose of the ground symbol used in electrical circuit diagrams?. To show that there is common bus for connection of the source of electrical energy to the load. To show the source of electrical energy for the load. To show that there is a return path for the current between the source of electrical energy and the load.

(Refer to Figure 19.) When the throttles are retarded with only the right gear down, the warning horn will not sound if an open occurs in wire. 5. 13. 6.

(Refer to Figure 20.) Troubleshooting an open circuit with a voltmeter as shown in this circuit will. permit current to flow and illuminate the lamp. create a low resistance path and the current flow will be greater than normal. permit the battery voltage to appear on the voltmeter.

(Refer to Figure 19.) When the landing gears are up and the throttles are retarded, the warning horn will not sound if an open occurs in wire. 5. 7. 6.

Refer to Figure 21.) Which symbol represents a variable resistor?. 2. 1. 3.

When referring to an electrical circuit diagram, what point is considered to be at zero voltage?. The circuit breaker. The switch. The ground reference.

Refer to Figure 23.) If an open occurs at R1 , the light. cannot be turned on. will not be affected. cannot be turned off.

(Refer to Figure 23.) If R2 sticks in the up position, the light will. be on full bright. be very dim. not illuminate.

(Refer to Figure 15.) With the landing gear retracted, the red indicator light will not come on if an open occurs in wire. 19. 7. 17.