Outline of Electrician Review Course
Time | Test.Question | Section | Description/Reference |
48 minutes | Test 1 | ||
1.1 | 501.15(A)(1)(2) | Distance to Sealoff | |
1.2 | 314.28(A)(1) | Pull Box Size for straight pull (covered in practice test) | |
1.3 | Table 220.55 Note 1 | Range Load calculations (covered in practice test) | |
1.4 | Table 250.122 | Sizing equipment grounding conductor |
|
1.5 | 725.41(A) | Maximum voltage for Class 1 power limited circuit | |
1.6 | Xmfr turns ratioTheory | Voltage from transformer turns ratio (See theory in a nutshell) | |
1.7 | Chapt 9 Tables | Raceway fill Tables Chapter 9 (solve with
computer program with course) |
|
1.8 | Theory | Motor efficiency (See theory in a nutshell) | |
1.9 | Theory | Power factor (See theory in a nutshell) | |
1.10 | Dwelling Unit Load calc | Example D1(a) Informative Annex D | |
1.11 | Power Factor Theory | 3-phase power factor (See theory in a nutshell) | |
1.12 | Power Factor Theory | 1-phase power factor (See theory in a nutshell) | |
1.13 | 314.28(A)(2) | Pull Box dimension angle pull (covered in practice test) | |
1.14 | 4-way switch hookup | 4 way Switch Hookup (See theory in a nutshell) | |
1.15 | 3-way switch hookup | 3-way switch hookup (See theory in a nutshell) | |
1.16 | Delta Motor | Delta motor hookup (See theory in a nutshell) | |
1.17 | 392.22(A)(1)(c) | Cable tray fill calculation | |
1.18 | Theory | Ohms law applied to open neutral (covered in practice test)shell) | |
1.19 | Motor feeder calc with 3 motors | Motor circuit load calculation for several motors on same circuit | |
1.20 | Table 314.16(B) | Box fill calculation (covered in practice test) | |
48 minutes | Test 2 | ||
2.1 | Theory | Ohms law | |
2.2 | 310.15(B)(3)(a) | Derating for more than 3 current carrying conductors | |
2.3 | Table 310.15(B)(2)(a) | Derating for temperature | |
2.4 | 358.22 | Sizing EMT nipple |
|
2.5 | 344.22, Chapt 9 Tables 1, 2, 5, and 8, note 4 | Sizing RMC for fill | |
2.6 | 314.29 | Junction box access | |
2.7 | 210.21(A) | Heavy duty lampholder |
|
2.8 | 240.6(A), 240.4(B) | Selecting fuse size | |
2.9 | 300.6(D) | Installing raceway on wet wall | |
2.10 | Table 310.15(B)(2)(a) | Derating for temperature | |
2.11 | 410.30(A) | Luminaire weight | |
2.12 | 404.14(B)(2) | AC-DC general use snap switch load | |
2.13 | 225.6(A)(1) | Minimum size of overhead conductors | |
2.14 | 300.3(C)(1) | Conductors of different systems in same enclosure | |
2.15 | 230.23(B) | Minimum size for overhead service conductors |
|
2.16 | 250.56 | Minimum resistance of ground rods | |
2.17 | 376.22 | Wireway fill | |
2.18 | Table 310.15(B)16), Table 310.15(B)(2)(a) | Conductor ampacity | |
2.19 | 440.32 | Air Conditioner load | |
2.20 | Annex D | Load calculation for office | |
48 minutes | Test 3 | ||
3.1 | Table 310.15(B)(16), 110.14 | Derating calculation | |
3.2 | 400.7, 400.8 | Flexible Cord use | |
3.3 | Chapter 9 Table 1, note 4 | Nipple fill | |
3.4 | 515.3 | Area classification for bulk storage plants | |
3.5 | 516.3(B) | Area classification for spray booth | |
3.6 | Chapter 9 Table 1 | Conduit and tubing fill | |
3.7 | 501.15(C)(3) | Sealoff sealing compound thickness | |
3.8 | 430.150, 430.32(A)(1) | Motor overload device selection | |
3.9 | 430.250 | Motor horsepower | |
3.10 | Theory | Using ohms law to find neutral current | |
3.11 | 240.21(B) | 25 foot feeder tap | |
3.12 | 366.23(A) | Ampacity of copper bus | |
3.13 | Theory | Voltage drop calculation | |
3.14 | 410.30(A)(1) | Maximum fixture weight | |
3.15 | 300.4(A)(1) | Bored holes in wood for cable | |
3.16 | 220.12 | Load calculation for church | |
3.17 | 250.122 | Selecting grounding conductor size | |
3.18 | Theory | Voltage Drop calculation | |
3.19 | 424.3(B) | Heater load calculation | |
3.20 | 314.20 | Location of outlet boxes | |
48 minutes | Test 4 | ||
4.1 | 250.53(G) | Burial depth of grounding electrode | |
4.2 | 240.6(A) | Standard size of overcurrent devices | |
4.3 | 430.32(A)(1) | Motor overload device size | |
4.4 | 300.5(D)(1) | Protection of direct buried conductors | |
4.5 | Theory | Power from resistors | |
4.6 | Theory | Ohms law applied to resistors | |
4.7 | 250.142(B) | Grounding electric ranges | |
4.8 | 210.4(B) | Protecting a multiwire circuit | |
4.9 | 220.52 | Small appliance circuit load | |
4.10 | 210.52(B)(2) Exception No. 1 | Loads allowed to be connected to small appliance circuit | |
4.11 | 250.53(D)(2) | Using metal underground water pipe as grounding electrode | |
4.12 | 410.116(B) | Thermal insulation next to fixture | |
4.13 | 200.6 | Identification of grounded conductor | |
4.14 | Article 100 | Definition of continuous load | |
4.15 | 314.16(B) | Box fill | |
4.16 | 314.20 | Set Back for boxes | |
4.17 | 200.10(C) | Grounded conductor attached to screw shell | |
4.18 | 240.32, 312.2(A) | Air space in wet locations | |
4.19 | 300.14 | Length of free conductor at boxe | |
4.20 | 220.12 | Volt-amperes per square foot of a building | |
48 minutes | Test 5 | ||
5.1 | Article 100 | Definition of grounded conductor | |
5.2 | 500.6(B) | Class 2 locations | |
5.3 | Theory | Total resistance of 3 resistors in parallel | |
5.4 | Theory | Ohms law applied to Resistors | |
5.5 | 210.19(A)(1) FPN 4, 215.2(A)(3) FPN 2 | Voltage drop | |
5.6 | 110.26(A)(2) | Working space in front of equipment | |
5.7 | 210.11(C)(1) | Small Appliance Branch circuits | |
5.8 | 250.119 | Identifying grounding conductors | |
5.9 | 250.52(A)(5) | Length of ground rod | |
5.10 | 210.52(A)(1) | Spacing of receptacles in dwellings | |
5.11 | 356.30 | Support for LFNC | |
5.12 | 250.106 FPN No. 2 | Distance from lightning rod to other conductorsxt to fixture | |
5.13 | 430.22(A) | Ampacity of conductors to motor | |
5.14 | 408.54 | Maximum number of overcurrent devices in a panelboard | |
5.15 | 210.19(A)(1) | Continuous and noncontinous load calculation | |
5.16 | 360.10 350.12 | Use of LFMC | |
5.17 | 360.20(B) | Maximum size FMTl | |
5.18 | 300.5(D)(1) | Protection of underground conductors | |
5.19 | 352.26 | Number of quarter bends | |
5.20 | 300.4(G) | When to use bushings | |
48 minutes | Test 6 | ||
6.1 | 680.50 | Fountains that have water common to a swimming pool | |
6.2 | 680.26(C) | The walls of a bolted or welded metal pool | |
6.3 | 680.23(B)(1) | Steel junction boxes used to supply underwater fixtures | |
6.4 | 680.23(A)(5) | The -minimum depth for any underwater lighting fixture | |
6.5 | 680.23(A)(3) | GFCI protection for any branch circuit that supplies underwater fixtures | |
6.6 | 680.22(A)(4) | Receptacles located within 20 feet of a swimming pool | |
6.7 | 680.2 | Storable swimming pool dimension | |
6.8 | 645.10 | Data-processing room the disconnecting means | |
6.9 | 645.10 | Disconnecting means for all data-processing equipment. | |
6.10 | 645.5(D)(2) | Type NM cables for connecting data-processing equipment by under floor wiring. | |
6.11 | 600.9(A) | Bottom of a sign above an area accessible to vehicles. | |
6.12 | 600.4(B) | Electric signs marking | |
6.13 | 410.16(C) | Light in a clothes closet | |
6.14 | 404.14(A) | Use of AC general use snap switch | |
6.15 | 314.29 | Junction boxes accessibility | |
6.16 | 314.16(B)(4) | Number of allowed conductors in a box | |
6.17 | 240.51(B) | Edison-base fuses | |
6.18 | 360.12(6) | Use of flexible metallic tubing | |
6.19 | 358.12(3) | EMT installed in the ground in cinder concrete | |
6.20 | 334.104 | Largest size NM cable | |
48 minutes | Test 7 | ||
7.1 | 328.2 | MV cable use | |
7.2 | 398.15(C) | Open wiring on insulators us | |
7.3 | 392.4 | Cable tray systems use | |
7.4 | 348.12(6) | Flexible metal conduit use | |
7.5 | 300.5(A) and Table 300.5 | Direct buried cables burial depts | |
7.6 | 300.19(A) and Table 300.19(A) | Conductor in a vertical raceway support | |
7.7 | 310.4 | Running conductors in parallel | |
7.8 | 110.14(A) | Connection of a No. 8 conductor to a terminal screw | |
7.9 | 300.14 | Length of free conductor | |
7.10 | 300.4(A)(1) | Holes in wooden studs | |
7.11 | 402.3 and Table 402.3 | Smallest fixture wire | |
7.12 | 400.8 | Flexible cords use | |
7.13 | 310.15(B)(2)(a) | Derating for ampacity | |
7.14 | 200.6(A) | Identification of the grounded conductor | |
7.15 | 240.21(B)(2) | 25 foot feeder tap | |
7.16 | 240.4(B) | Overcurrent protection for conductors | |
7.17 | 440.60 | Connecting a three-phase air conditioner | |
7.18 | 422.16 | Connecting household refrigerating equipment | |
7.19 | 320.10 and 320.12 | AC cable used to connect motorscrete | |
7.20 | 430.142 | Grounding of frames of stationary motors | |
48 minutes | Test 8 | ||
8.1 | 430.227 | Disconnecting means for a 2,300-volt motor | |
8.2 | 430.109(B) | Disconnecting means for stationary motors rated less than one horsepower | |
8.3 | 430.84 | Motor controller opening all conductors to the motore | |
8.4 | 430.10(A) | Enclosures for motor controllers | |
8.5 | 426.20(A) | Rating of heating panels for de-icing | |
8.6 | 424.43(C) | Excess leads of heating cable | |
8.7 | 424.41(F) | Heating cables installed on ceiling boards | |
8.8 | 424.36 | Conductors located above a heated ceiling | |
8.9 | 424.35 | Non heating leads of 120-volt space heating cable | |
8.10 | 424.19(C) | Unit switches for disconnecting a heater | |
8.11 | 422.16(B)(3) | Cord and plug as disconnecting means for a wall-mounted electric oven | |
8.12 | 422.16(B)(2) and Table 400 | Dishwashers connected with Type SP-1 flexible cords. | |
8.13 | 422.4 | Flexible cords for supplying portable appliances | |
8.14 | 200.6(A) | Toasters and live parts exposed to contact | |
8.15 | 280.23 | Surge arrester for a 480-volt syste | |
8.16 | 445.14 | Generator operates at 30-volts protection | |
8.17 | 480. | Nominal voltage of a lead-acid battery | |
8.18 | 460.6(A) | Capacitor operating at 300-volts | |
8.19 | 460.8(A) | Capacitor circuit conductors | |
8.20 | 450.3(C) | Potential or voltage transformers | |
48 minutes | Test 9 | ||
9.1 | 220.55, Table 220.55 | Branch circuit load for a 12-kilowatt electric range | |
9.2 | 422.30 | Disconnecting means for appliances | |
9.3 | 424.3(A) | 40-ampere branch circuit supplying several fixed electric space heaters in a dwelling | |
9.4 | 440.22(A) | Rating of the overcurrent protective device for a circuit supplying a hermetic. motor-compressor | |
9.5 | 220.12 | Determining the lighting load for dwelling | |
9.6 | 220.19(A)(1) Exception | Continuous load supplied by a branch circuit | |
9.7 | 210.52(F) Exception | 20-ampere laundry circuit | |
9.8 | 424.3(B) 210.19(A)(1) | Branch circuit conductors supplying fixed resistive type space heaters | |
9.9 | 220.40 | Computed load for a feeder | |
9.10 | 220.54 | Standard calculation method for feeder load for a household electric clothes dryerr | |
9.11 | 220.82(A) | Optional calculation method for a dwelling unit | |
9.12 | 220.84(A) | Optional calculation method for multi-family dwelling | |
9.13 | 110.26(D) | Illuminating service-entrance equipment for a one-family dwelling | |
9.14 | 110.26(A) | Working clearance in front of live parts | |
9.15 | 110.26(E | Minimum headroom around a motor control center | |
9.16 | 408.3(E) | Identifying highest voltage to ground in a high-leg delta arrangement | |
9.17 | 408.30 | Noncontinuous load. | |
9.18 | 408.36 | Lighting and appliance panelboard | |
9.19 | 408.40 250.24(A)(5) | Connecting the grounding terminal bar to the neutral bar | |
9.20 | 450.21(C) | Transformers rated over 35,000-volts | |
48 minutes | Test 10 | ||
10.1 | 220.61(B | Feeder neutral smaller than the ungrounded conductors | |
10.2 | Article 100 definition | Individual branch circui | |
10.3 | 210.23(B) | 30-ampere branch circuit supplying fixed lighting units in a dwelling | |
10.4 | 210.23(A)(1) | Rating of any one cord-and-plug-connected utilization equipment | |
10.5 | 210.21(A) | Heavy-duty type lamp holder | |
10.6 | 210.3 | branch-circuit rating determined by the conductor ampacity | |
10.7 | 210.70(A)(1) Exception | Wall switch controlled lighting outlet | |
10.8 | 210.8(A)(1) | Receptacle outlets in bathrooms of dwelling units | |
10.9 | 250.119(A) | Identifying the equipment grounding conducto | |
10.10 | 210.4(C) Ex No. 2 | Multi-wire branch-circuit has a branch-circuit protective device | |
10.11 | 220.56 and Table 220.56 | Demand factor for three kitchen unit loads | |
10.12 | 550.31(1) | Minimum service load for each mobile home site | |
10.13 | 220.86 | Optional calculation for computing the feeder or service load for a school | |
10.14 | 555.19(A)(4) | Rating of receptacles providing shore power for boats at marinas | |
10.15 | 210.19(A) FPN No. 4 | Voltage drop for branch circuits and feeders combined | |
10.16 | 240.6(C) | Size and the setting for a circuit breaker used as an overcurrent protective device | |
10.17 | 210.6(D) and 210.23(A) | Branch circuits in industrial establishments | |
10.18 | 210.4(C) | Multi-wire branch circuit protected by fuse | |
10.19 | 408.36 | Lighting and appliance panel board is a panel board | |
10.20 | 220.14(J) | Separate receptacle load in guest rooms | |
Total time = 48 x 10 = 480 minutes; 8 hours |