EXAMINATION COMPLETE QUESTIONS
AND DETAILED SOLUTIONS LATEST
UPDATE THIS YEAR JUST RELEASED
Exam coverage
Irrigation System Design
o Determining precipitation rates, zoning, scheduling, and equipment selection.
o Designing efficient systems that provide uniform water application.
Hydraulics and Water Movement
o Understanding pressure, flow, friction loss, velocity, and pump performance.
o Calculating hydraulic requirements for irrigation systems.
Water Conservation Practices
o Implementing methods that reduce water waste.
o Applying efficient irrigation scheduling and management.
Backflow Prevention
o Identifying appropriate devices and installation requirements.
o Protecting potable water supplies from contamination.
Irrigation Components
o Valves, controllers, piping, rotors, sprays, drip systems, sensors, and pumps.
o Selecting components suitable for site conditions.
Installation Procedures
o Trenching, pipe sizing, wire installation, controller setup, and system testing.
o Following accepted industry practices.
Maintenance and Troubleshooting
, o Diagnosing leaks, pressure problems, controller failures, and coverage
deficiencies.
o Performing repairs and system adjustments.
Soils, Plants, and Turfgrass
o Understanding soil-water relationships and plant water requirements.
o Matching irrigation schedules to landscape needs.
Electrical Fundamentals
o Controller operation, wiring methods, solenoids, transformers, and sensors.
o Diagnosing electrical problems safely.
Regulatory Compliance
o Licensing requirements, records, inspections, customer notifications, and
standards.
o Adhering to Texas irrigation regulations.
1.
A contractor is designing irrigation zones for a large
commercial property. Why should sprinkler heads with
significantly different precipitation rates generally not be
placed within the same irrigation zone?
A. They increase wire resistance
B. They create uneven watering conditions across the
landscape
C. They reduce controller voltage
D. They eliminate pressure losses
Answer: B
,Rationale: Different precipitation rates apply water at
different speeds, resulting in dry and overwatered areas
within the same zone.
2.
During system installation, a technician measures static
pressure at 95 psi. What is the primary concern before
connecting standard spray heads directly to the system?
A. Excessive pressure may increase misting and water
waste
B. Flow rate will become zero
C. Controller programming becomes impossible
D. Pipe friction completely disappears
Answer: A
Rationale: High pressure often causes misting, poor
distribution, and excessive water consumption.
3.
A landscape irrigator notices turf near sprinkler heads
appears saturated while distant areas remain dry. Which
condition most likely exists?
A. Excessive controller voltage
B. Poor head spacing or coverage uniformity
, C. Excessive pipe diameter everywhere
D. Water hammer prevention
Answer: B
Rationale: Improper spacing commonly causes uneven
distribution patterns.
4.
Why is friction loss considered when sizing irrigation
piping for a new installation?
A. It determines fertilizer application rates
B. It affects pressure available to downstream components
C. It eliminates water demand calculations
D. It controls electrical resistance
Answer: B
Rationale: Excessive friction loss reduces pressure and
system performance.
5.
A property owner requests maximum water efficiency for
shrub beds. Which irrigation method is generally most
appropriate?