EXAMINATION COMPLETE QUESTIONS
AND DETAILED SOLUTIONS LATEST
UPDATE THIS YEAR JUST RELEASED
Exam Coverage
1. General Electrical Theory and Fundamentals
o Voltage, current, resistance, power, energy, Ohm's Law, Kirchhoff's Laws, AC/DC
principles.
2. National Electrical Code Requirements
o Code organization, definitions, installation requirements, permissions, exceptions, and
mandatory rules.
3. Branch Circuits and Feeders
o Load calculations, conductor sizing, demand factors, ampacity adjustments, feeder
design.
4. Grounding and Bonding
o Grounding electrode systems, equipment grounding conductors, bonding jumpers, fault
current paths.
5. Overcurrent Protection
o Circuit breakers, fuses, interrupting ratings, selective coordination, protection sizing.
6. Motors, Generators, and Transformers
o Installation, calculations, overload protection, disconnect sizing, transformer sizing.
7. Special Occupancies and Hazardous Locations
o Healthcare facilities, agricultural buildings, marinas, pools, classified locations.
8. Wiring Methods and Equipment
o Raceway systems, cable types, boxes, conduit fill, conductor installation.
9. Electrical Calculations
o Voltage drop, box fill, conduit fill, service calculations, demand calculations, fault
current concepts.
10. Electrical Safety, Inspection, and Administration
OSHA requirements, lockout/tagout, permits, inspections, documentation, safe work practices .
Wyoming Master Electrician Examination
1.
,Which statement best explains why understanding the
hierarchy of mandatory rules, permissive rules, and
explanatory material within the National Electrical Code is
essential before making installation decisions on complex
commercial electrical projects?
A. Informational notes override mandatory rules whenever
engineering judgment differs
B. Mandatory requirements establish enforceable minimum
standards, while informational notes provide guidance
without creating enforceable installation requirements
C. Explanatory material replaces local amendments whenever
conflicts occur
D. Manufacturer instructions become optional when
informational notes are present
Answer: B
Rationale: Mandatory NEC requirements are enforceable,
while informational notes only assist interpretation.
2.
An electrician calculates that a continuous lighting load will
operate at full rated current for more than three hours during
normal operation. Which conductor sizing principle should be
applied before selecting the branch-circuit conductors?
A. Size conductors at exactly the connected load
,B. Ignore continuous loading because lighting is resistive
C. Apply continuous-load conductor sizing requirements
before selecting conductor ampacity
D. Increase only the equipment grounding conductor
Answer: C
Rationale: Continuous loads require conductor sizing
consistent with NEC continuous-load provisions.
3.
When selecting an equipment grounding conductor for a
feeder installation supplying industrial machinery, what
primary purpose does the equipment grounding conductor
serve during an electrical fault condition?
A. Carry normal operating current
B. Increase available voltage
C. Provide a low-impedance fault current path that facilitates
rapid overcurrent device operation
D. Replace grounding electrodes
Answer: C
Rationale: Equipment grounding conductors clear faults
quickly by carrying fault current.
, 4.
A three-phase motor repeatedly trips its overload protection
while operating within normal voltage limits and without
evidence of short circuits. What should be investigated first
before replacing electrical equipment?
A. Decorative conduit supports
B. Mechanical load conditions and actual motor current
C. Color of conductor insulation
D. Raceway paint condition
Answer: B
Rationale: Excessive mechanical loading commonly causes
overload trips.
5.
Why must electricians verify the interrupting rating of an
overcurrent protective device before installing it in equipment
supplied from available fault currents exceeding standard
residential levels?
A. To reduce conductor resistance
B. To ensure the device safely interrupts prospective fault
current without catastrophic failure
C. To increase service voltage
D. To eliminate grounding conductors