EVITP FINAL EXAM | LATEST & NEWEST UPDATE | COMPREHENSIVE
PRACTICE QUESTIONS, DETAILED RATIONALES, ELECTRIC VEHICLE
INFRASTRUCTURE TRAINING REVIEW & CERTIFICATION EXAM
PREPARATION PDF
EVITP Final Exam | Latest & Newest Update | Comprehensive Practice Questions
Exam Coverage Summary
This comprehensive exam covers all essential domains of electric vehicle infrastructure training including:
1. EV Industry Overview - Manufacturers, advocacy groups, charging equipment manufacturers, research organizations, and
standards bodies that comprise the complete EV ecosystem
2. EV History and Evolution - From the first electric vehicles in 1832 through early popularity, limitations, and the
technological improvements that renewed interest in modern EVs
3. Vehicle Classifications - BEV, HEV, PHEV, FCEV, and PZEV definitions with operational characteristics including range,
charging, and drivetrain architectures
4. Charging Technologies - Level 1, Level 2, and DC fast charging specifications including voltage, amperage, power output,
and connector standards like J1772 and CHAdeMO
5. Electrical Theory and Calculations - Ohm's law, voltage drop calculations, load calculations, conductor sizing, overcurrent
protection, and equipment grounding requirements
6. NEC Requirements - Articles 210, 220, 250, 310, 625, 705, 702 with specific focus on branch circuits, feeders, services, and
EVSE installation provisions
7. EVSE Equipment and Installation - Components, safety features, communication protocols, cord management, accessibility
requirements, and mounting specifications
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8. Site Assessment and Planning - Onsite evaluation procedures, customer needs assessment, existing electrical system analysis,
and location determination factors
9. Regulatory Compliance - ADA guidelines, LEED certification, incentive programs, utility requirements, and commissioning
processes
10. Troubleshooting and Maintenance - Common failure modes, repair procedures, documentation requirements, and
recommissioning protocols
1. The EV industry is comprised of which of the following stakeholder groups that collectively drive the development and
adoption of electric vehicles?
Select one:
a. auto manufacturers
b. consumer advocacy groups
c. EV charging equipment manufacturers
d. research and standards organizations
e. all of the above
✓ CORRECT ANSWER: e. all of the above
Rationale: The electric vehicle industry encompasses a complete ecosystem including manufacturers, advocacy groups,
equipment suppliers, and standards organizations that work together to advance EV technology and infrastructure.
2. A partial zero emissions vehicle (PZEV) is defined as which of the following types of vehicle that meets specific emissions
standards?
Select one:
a. A gas-engine vehicle that has zero evaporative emissions from its fuel system
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b. A plug-in electric vehicle
c. A vehicle with a hybrid gas-electric drive train
d. An electric vehicle that only has provisions for wireless charging
✓ CORRECT ANSWER: a. A gas-engine vehicle that has zero evaporative emissions from its fuel system
Rationale: PZEV refers specifically to internal combustion engine vehicles that achieve zero evaporative emissions from their
fuel systems while meeting stringent tailpipe emissions requirements.
3. The state of charge represents the available capacity of the battery, which is typically expressed as what measurement for easy
understanding by vehicle operators?
Select one:
True
False
✓ CORRECT ANSWER: True
Rationale: State of charge is universally expressed as a percentage of the battery's total capacity, providing drivers with a clear
indication of remaining energy available for vehicle operation.
4. Which of the following energy sources is not considered an alternative to fossil fuels when evaluating transportation energy
options?
Select one:
a. Compressed air
b. Electricity
c. Fuel cell
d. Gasoline
✓ CORRECT ANSWER: d. Gasoline
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Rationale: Gasoline is derived from petroleum and is a fossil fuel, while compressed air, electricity, and fuel cells represent
alternative energy sources for vehicle propulsion.
5. The first electric vehicle can be traced back to what year when the earliest known EV was developed?
Select one:
a. 1832
b. 1943
c. 1967
d. 2002
✓ CORRECT ANSWER: a. 1832
Rationale: The first electric vehicle was developed in 1832 by Robert Anderson, using non-rechargeable primary cells to power a
crude carriage, marking the beginning of EV history.
6. Which of the following illustrates why electric vehicles were so popular in the early days of automobiles compared to their
gasoline-powered counterparts?
Select one:
a. They were clean to operate
b. They were mechanically complicated
c. They were quiet
d. Both a. and c.
✓ CORRECT ANSWER: d. Both a. and c.
Rationale: Early EVs gained popularity because they were clean to operate without exhaust fumes and quiet compared to noisy
gasoline engines, making them desirable for urban use.