ELECTRICAL THEORY EXAM

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A balanced 3-wire, 120/240V, single-phase circuit is connected so that the ungrounded conductors are from different transformer lines (Line 1 and Line 2). The current on the grounded conductor will be ___________ percent of the ungrounded conductor current. (a) 0 (zero) (b) 70 (c) 80 (d) 100

(a) 0 (zero)

What is the resistance of the circuit conductors when the conductor voltage drop is 7.20V and the current flow is 50A? (a) 0.14 ohms (b) 0.30 ohms (c) 3 ohms (d) 14 ohms

(a) 0.14 ohms R = E/I R = 7.20V / 50A R = 0.14 ohms

What is the power loss in watts of a conductor that carries 24A and as a voltage drop of 7.20V? (a) 175W (b) 350W (c) 700W (d) 2,400W

(a) 175W P = I X E P = 24A X 7.20V P = 172.80W

What is the power consumed by a 10 kW heat strip rated 230V connected to a 15V circuit? (a) 2.50 kW (b) 5 kW (c) 7.50 kW (d) 15 kW

(a) 2.50 kW The power of the heat strip will be less because the applied voltage (115V) is less that the equipment voltage rating (230V). To calculate this, we must determine the heat strip resistance rating at 233V, and then determine the power rating at 115V based on the heat strip resistance rating. P = E2/R E = Applied Voltage = 115V R = Resistance of Heat Strip = E2/P Heat Strip Voltage Rating = 230V Power Rating of Heat Strip = 10,000W Resistance of Heat Strip = 230V2/10,000W Resistance of Heat Strip + 5.29 ohms P = E2/R P = 13,225/5.29 ohms P = 2,500W/1,000 P = 2.50 kW Note: Power changes with the square of the voltage. If the voltage is reduced to 50%, then the power consumed will be equal to the new voltage percent2 or 50%2, or 10,000 X (0.50 X 0.50 = 0.25 = 25%) = 2,500W

What is the conductors power loss in watts for a 120V circuit that has a 3 percent voltage drop and carries a current flow of 12A? (a) 43W (b) 86W (c) 172W (d) 1,1440W

(a) 43W P = I X E I = 12A E = 120V X 3% E = 3.60V P = 12A X 3.60V P = 43.20W

What is the approximate power consumed by a 10 kW heat strip rated 230V, when connected to a 208V circuit? (a) 8 kW (b) 9 kW (c) 11 kW (d) 12 kW

(a) 8 kW The power of the heat strip will be less because the applied voltage (208V) is less than the equipment voltage rating (230V). To calculate this, we must determine the heat strip resistance rating at 230V, and then determine the power rating at 208V based on the heat strip resistance rating. P =E2/R E = Applied Voltage = 208V R = Resistance of Heat Strip = E2/P Heat Strip Voltage Rating = 230V Power Rating of Heat Strip = 10,000W Resistance of Heat Strip = 230V2/10,000W Resistance of Heat Strip = 5.29 ohms P = E2/R P = (208V X 208V)/5.29 ohms P = 43,624/5.29 ohms P = 8,178W/1,00 = 8.20 kW

According to Kirchoff's Current Law, the total current provided by the source to a parallel circuit will equal the sum of the currents of all of the branches. (a) True (b) False

(a) True

According to the conventional current flow theory, electric current travels from positive to negative. (a) True (b) False

(a) True

According to the electron current flow theory, electrons flow away from the negative terminal of the source, through the circuit and load, toward the positive terminal of the source. (a) True (b) False

(a) True

An AFCI protection device provides protection from an arcing fault by recognizing the characteristics unique to an arcing fault and by functioning to de-energize the circuit when an arc fault is detected. (a) True (b) False

(a) True

Available short-circuit current is the current in amperes that is available at a given point in the electrical system. (a) True (b) False

(a) True

Because of conductor resistance, flux leakage, eddy currents, and hysteresis losses, not all of the input power is transferred to the secondary winding for useful purposes. (a) True (b) False

(a) True

Circuit breakers and fuses are intended to interrupt the circuit, and they must have an ampere interrupting rating (AIR) sufficient for the available short-circuit current. (a) True (b) False

(a) True

Electrons leaving a power supply are always trying to return to the same power supply; they are not trying to go into the earth. (a) True (b) False

(a) True

Even when power is removed from the circuit, capacitors can store large amounts of energy for a long period of time. They can discharge and arc if inadvertently shorted or grounded out. (a) True (b) False

(a) True

If a conductor carrying current is next to another conductor carrying current in the opposite direction, the electromagnetic field attempts to push the conductors apart. (a) True (b) False

(a) True

If the protection device is not rated to interrupt the current at the available fault values at its listed voltage rating, it could explode while attempting to clear the fault. (a) True (b) False

(a) True

If the ungrounded conductors of a multi-wire circuit are not terminated to different phases, this can cause the neutral current to be in excess of the neutral conductor rating. (a) True (b) False

(a) True

In the as induction motor, the stator produces a rotating magnetic field that induces current in the rotor windings. The rotor current generates a magnetic field in opposition to the magnetic field of the stator, thereby causing the rotor to turn. (a) True (b) False

(a) True

It is not the force of the magnetic field through a conductor that produces electricity; it is the relative motion of the field to the electrons within the conductor that produces the movement of electrons. (a) True (b) False

(a) True

Kirchoff's Voltage Law states that in a series circuit, the sum of the voltage drops across all of the resistors will equal the applied voltage. (a) True (b) False

(a) True

Lightning frequently terminates to a point of elevation and it strikes nonmetallic as well as metallic objects with the same frequency. (a) True (b) False

(a) True

Metal parts of premises wiring must be bonded to a low-impedance path designed so that the circuit protection device will quickly open and clear a ground fault. (a) True (b) False

(a) True

One major advantage of ac over dc is the ease of voltage regulation by the use of a transformer. (a) True (b) False

(a) True

People become injured and death might occur when voltage pushes electrons through the human body causing the heart to go into ventricular fibrillation. (a) True (b) False

(a) True

Providing a path to the earth often helps reduce electrostatic charge. (a) True (b) False

(a) True

Severe electric shock or death can occur if a person touches the ungrounded and the neutral conductors at the same time, even if the circuit is GFCI protected. (a) True (b) False

(a) True

The current flowing on the neutral conductor of a multi-wire branch circuits can cases ______________ connected to the circuit. (a) True (b) False

(a) True

The energy transfer ability of a transformer is accomplished because the primary electromagnetic lines of force induce a voltage in the secondary winding. (a) True (b) False

(a) True

The heating from harmonic currents is proportional to the square of the harmonic order. (a) True (b) False

(a) True

The opposition to current flow results in voltage drop. (a) True (b) False

(a) True

The severity of an electric shock is dependent on the current flowing through the body, which is impacted by circuit voltage and contact resistance. (a) True (b) False

(a) True

Typically, when a GFCI protection device fails, the switching contacts remain closed and the device will continue to provide power without GFCI protection. (a) True (b) False

(a) True

Unsafe arcing faults can occur in one of two ways, as series arcing faults or as parallel arcing faults. The most dangerous is the parallel arcing fault. (a) True (b) False

(a) True

Voltage induced in the secondary winding of a transformer is dependent on the number of secondary turns as compared to the number of primary turns. (a) True (b) False

(a) True

When power supplies are connected in parallel, the voltage remains the same, but the current or amp-hour capacity will be increased. (a) True (b) False

(a) True

The opposition offered to the flow of ac current by a capacitor is called capacitive reactance, which is expressed in ohms and abbreviated. (a) XC (b) XL (c) Z (d) none of these

(a) XC

Self-induced voltage opposes the change in current flowing in the conductor. This is called inductive reactance and is abbreviated _____________. (a) XL (b) XC (c) Z (d) none of these

(a) XL

The effective value is equal to the peak value ______________. (a) times 0.707 (b) times 1.41 (c) times 1.732 (d) times 2

(a) times 0.707

The total circuit resistance of two 12 AWG conductors (each 100 ft long) is 0.40 ohms. If the current of the circuit is 16A, what is the power loss of the conductors in watts? (a) 75W (b) 100W (c) 300W (d) 600W

(b) 100W P = I2 X R I = 16A R = 0.40 ohms P = (16A X 16A) X 0.40 ohms P = 102.40W

Three-phase as generators have three equally spaced windings, ___________ out-of-phase with each other. (a) 90* (b) 120* (c) 180* (d) 360*

(b) 120*

If the output is 1,600W and the equipment is 88 percent efficient, what are the input amperes at 120V? (a) 10A (b) 15A (c) 20A (d) 25A

(b) 15A Input = Output/Efficiency Input = 1,600W/0.088 Eff Input = 1,818W/120V Input Amperes = Watts/Volts Input Amperes = 1,818W/120V Input Amperes = 15,1677A

What size transformer is required for a 100A, 240V, single-phase noncontinuous load that has a power factor of 85 percent? (a) 15 kVA (b) 25 kVA (c) 37.50 kVA (d) 50 kVA

(b) 25 kVA Transformer kVA = Volt X Amperes Transformer kVA = (240V X 100A/1,000 Transformer kVA = 24 Note: Transformers should be sized using the apparent power, which is VA = E x I

What is the nameplate FLA for a 20 hp, 208V, three-phase motor with 90 percent power factor and 80 percent efficiency? (a) 51A (b) 58A (c) 65A (d) 80A

(b) 58A FLA = (hp X 746W)/(V X 1.732 X 0.90 PF X 0.80 Eff) FLA = 58A

A GFCI protection device contains an internal monitor that prevents the device from being turned on if there is a neutral-to-case connection downstream of the device, but this only occurs if there is a load on the circuit. (a) True (b) False

(b) False

A holding relay is primarily used for worker convenience. (a) True (b) False

(b) False

AC inductive or capacitive reactive loads cause the voltage and current to be in-phase with each other. (a) True (b) False

(b) False

In a dc circuit, the only opposition to current flow is the physical resistance of the material. This opposition is called reactance and it is measured in ohms. (a) True (b) False

(b) False

Inverse time breakers operated on the principle that as the current decreases, the time it takes for the device to open decreases. (a) True (b) False

(b) False

Lightning protection is intended to protect the building structure itself, as well as the electrical equipment on or inside the building structure. (a) True (b) False

(b) False

Magnetic lines of force can cross each other and they are called flux lines. (a) True (b) False

(b) False

Nonmagnetic metals are ferrous, meaning they do not contain any iron, and cannot be magnetized. (a) True (b) False

(b) False

The best conductors, in order of their conductivity, are: gold, silver, copper, and aluminum. (a) True (b) False

(b) False

The motor FLA rating is used when sizing motor conductor size or branch circuit short-circuit and ground-fault protection. (a) True (b) False

(b) False

The termination of the lightning strike is unlikely to ignite combustible materials. (a) True (b) False

(b) False

To prevent fires and electric shock, the NEC specifies that neutral current can flow on metal parts of the electrical system. (a) True (b) False

(b) False

___________ motors are fractional horsepower motors that operate equally well on as and dc and are used for vacuum cleaners, electric drills, mixers, and light household appliances. (a) AC (b) Universal (c) Wound-motor (d) Synchronous

(b) Universal

Because of the dangers associated with an open grounded conductor, the continuity of the _________________ conductor of a multi-wire branch circuit cannot be dependent upon the receptacle. (a) ungrounded (b) grounded (c) a and b (d) none of these

(b) grounded

Dual-Voltage ac motors are made with two field windings. The field windings are connected in ___________ for low-voltage operation and in _________ for high-voltage operation. (a) series, parallel (b) parallel, series (c) series, series (d) parallel, parallel

(b) parallel, series

Because of the earth's high resistance to current flow, it cannot be used for the purpose of clearing a line-to-case ground fault for _________ wiring. (a) utility (b) premises (c) a or b (d) none of these

(b) premises

The _____________ of an ac generator contains the electromagnetic field, which cuts through the stationary conductor coils. (a) stator (b) rotor (c) coil (d) winding

(b) rotor

The _______________ of a generator is forced to rotate while it is being subjected to the magnetic field of the stator. (a) winding (b) rotor (c) stator (d) b or c

(b) rotor

Equipment must have a(n) ____________ current rating that permits the protection device to clear a short circuit or ground fault without extensive damage to the components of the circuit. (a) overload (b) shot-circuit (c) ground-fault (d) b or c

(b) shot-circuit

Swapping _____________ of the line conductors can reverse a three-phase ac motor's rotation. (a) one (b) two (c) three (d) none of these

(b) two

What does it cost per year (at 8 cents per kWh) for the power loss of a 12 AWG circuit conductor (100 ft long) that has a total resistance of 0.40 ohms and current flow of 16A? (a) $30 (b) $50 (c) $70 (d) $90

(c) $70 Cost per Year = Power for the Year in kWh X $0.08 Power per Hour = I2 X R I = 16A R = 0.40 ohms Power per Hour = (16A X 16A) X 0.40 ohms Power per Hour = 102.40W Power for the Year in kWh = (102.40W X 24 hours X 365 days)/1,000 Power for the Year in kWh = 897 kWh Cost per Year = 897 kWh X $0.08 Cost per Year $71.76

If the primary phase voltage is 480V and the secondary phase voltage is 240V, the turns ratio is _____________. (a) 1:2 (b) 1:4 (c) 2:1 (d) 4:1

(c) 2:1

Three-phase, ____________, wye-connected systems can overheat because of circulating odd triplen harmonic currents. (a) 2-wire (b) 3-wire (c) 4-wire (d) none of these

(c) 4-wire

Arcing is defined as a luminous luminous discharge of electricity across an insulating medium. Electric arcs operate at temperatures between ______________ and expel small particles of very hot molten materials. (a) 1,000 and 5,000*F (b) 2,000 and 10,000*F (c) 5,000 and 15,000*F (d) 10,000 and 25,000*F

(c) 5,000 and 15,000*F

What is the voltage drop of two 12 AWG conductor (0.40 ohms) supplying a 16A load, located 100 ft from the power supply? (a) 1.60V (b) 3.20V (c) 6.40V (d) 12.80V

(c) 6.40V E/vd = I X R E/vd = 16V X 0.40 ohms E/vd = 6.40V

How many 20A, 120V circuits are required for forty-two, 300W electric discharge luminaires (noncontinuous load) that have a power factor of 85 percent? (a) 4 circuits (b) 5 circuits (c) 7 circuits (d) 8 circuits

(c) 7 circuits VA per Circuit = Volts X Amperes VA per Circuit = 120V X 20A VA per Circuit = 2,400 VA VA per Luminaire = Watts/Power Factor VA per Luminaire = 300W/0.85 PF VA per Luminaire = 353 VA Lights per Circuit = 2,400 VA/353 VA = 6.80 Lights per Circuit = 6 Circuits = 42 luminaires/6 per circuit Circuits = 7

If the rotating part of the motor winding is jammed so that it cannot rotate, no CEMF will be produced in the motor winding. Result - the motor operates at ___________ and the windings will be destroyed by excessive heat. (a) FLA (b) FLC (c) LRC (d) any of these

(c) LRC

The abbreviation for impedance is ___________. (a) XL (b) XC (c) Z (d) none of these

(c) Z

Wasteful circulating _______________ in the iron core cause(s) the core to heat up without any useful purpose. (a) conductor resistance (b) flux leakage (c) eddy currents (d) hysteresis losses

(c) eddy currents

_____________ can be reduced by dividing the core into many flat sections or laminations. (a) conductor resistance (b) flux leakage (c) eddy currents (d) hysteresis losses

(c) eddy currents

The total opposition to current flow in as circuits is called ___________ and is measured in ohms. (a) resistance (b) reactance (c) impedance (d) skin effect

(c) impedance

In a(n) _____________ motor, the rotor is actually locked in step with the rotation stator field and is dragged along at the speed of the rotating magnetic field. (a) wound-rotor (b) induction (c) synchronous (d) squirrel-cage

(c) synchronous

The ______________ sensing element causes the circuit breaker to open when a predetermined calibration temperature is reached. (a) magnetic (b) electronic (c) thermo (d) none of these

(c) thermo

When describing the relationship between voltage and current, the reference waveform is always ______________. (a) current (b) resistance (c) voltage (d) none of these

(c) voltage

An electrical arc blast can approach _______________, which vaporizes metal parts and produces an explosive and deadly pressure wave. (a) 10,000*F (b) 15,000*F (c) 25,000*F (d) 30,000*F

(d) 30,000*F

When a motor starts, the current drawn is at least _____________ times the motor FLA; this is known as motor locked-rotor current (LRC). (a) 0.80 (b) 1.25 (c) 3 (d) 6

(d) 6

A clamp-on ac ammeter has a coil that is clamped around the conductor and detects the rising and falling ____________ field being produced due to the as flow through the conductor. (a) static (b) current (c) power (d) magnetic

(d) Magnetic

A GFCI is designed to protect persons against electric shock. It operates on the principle of monitoring the imbalance of current between the circuit's ___________ conductor. (a) ungrounded (b) neutral (c) equipment (d) a and b

(d) a and b

The formulas in the power wheel apply to ______________. (a) dc (b) ac with unity power factor (c) dc or ac circuits (d) a and b

(d) a and b

Factors that impact the available short-circuit current include circuit conductor ____________________. (a) material (b) size (c) length (d) all of these

(d) all of these

Factors that impact the available short-circuit include transformer ______________. (a) voltage (b) kVA rating (c) impedance (d) all of these

(d) all of these

For ac circuits, the ac __________ of a conductor must be taken into consideration. (a) eddy currents (b) skin effect (c) resistance (d) all of these

(d) all of these

The induced voltage in a conductor carrying alternating current opposes the change in current flowing through the conductor. The induced voltage that opposes the current flow is called ____________. (a) CEMF (b) counter-electromotive force (c) back-EMF (d) all of these

(d) all of these

The purpose of overcurrent protection is to protect the conductors and equipment against excessive or dangerous temperatures because of overcurrent. Overcurrent is current in excess of the rated current of equipment or conductors. It may result from a(n) __________. (a) overload (b) short circuit (c) ground fault (d) all of these

(d) all of these

To protect against electric shock of to prevent a fire, a dangerous _____________ must be removed by opening the circuit's overcurrent device. (a) overload (b) short circuit (c) ground fault (d) all of these

(d) all of these

The total resistance of a parallel circuit can be calculated by the _____________ method. (a) equal resistance (b) product-over-sum (c) reciprocal (d) any of these

(d) any of these

Improper wiring or mishandling of multi-wire branch circuits can cause ________________ connected to the circuit. (a) overloading of the ungrounded conductors (b) overloading of the neutral conductors (c) destruction of equipment because of over-voltage (d) b and c

(d) b and c

The magnetic time-delay circuit breaker operates on the solenoid principle where a movable core, held with a spring, is moved by the magnetic field of a(n) ______________. (a) overload (b) short circuit (c) ground fault (d) b or c

(d) b or c

As current flows through the transformer, the iron core is temporarily magnetized. The energy required to realign the core molecules to the changing electromagnetic field is called ____________ loss. (a) conductor resistance (b) flux leakage (c) eddy currents (d) hysteresis

(d) hysteresis

Transformers are rated in ____________. (a) Herrys (b) kW (c) W (d) kVA

(d) kVA

The electric motor on the principle of the attracting and repelling forces of ____________ fields. (a) Voltage (b) current (c) power (d) magnetic

(d) magnetic

A non-sinusoidal waveform is created when _____________ loads distort the voltage and current sine wave. (a) linear (b) resistive (c) inductive (d) nonlinear

(d) nonlinear

Ohmmeters measure the __________ or opposition to current flow of a circuit or component. (a) Voltage (b) current (c) power (d) resistance

(d) resistance

The megger is used to measure very high- _____________ values, such as those found in cable insulation, or motor and transformer windings. (a) Voltage (b) current (c) power (d) resistance

(d) resistance

The expanding and collapsing magnetic field within the conductor induces a voltage in the conductors (CEMF) that repels the flowing toward the surface of the conductor. This is called ________________. (a) eddy currents (b) induced voltage (c) impedance (d) skin effect

(d) skin effect

Kirchoff's Current Law states that in a series circuit, the current is ________ through the transformer, the conductors, and the appliance. (a) proportional (b) distributed (c) additive (d) the same

(d) the same


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