39764139
Description
Quiz by Sergio Olvera, updated 3 months ago
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Created by Sergio Olvera
3 months ago
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Question 1
Question
Based on the equation of elevation x the constant PSI per foot. What is the total weight in pounds per square inch at the bottom of the 12 in.-high column?
Answer
-
1.433
-
0.433
-
12.133
-
6.733
Question 2
Question
Does container shape make a difference in static pressure situation?
Answer
-
Yes
-
No
-
Need more info
-
Hard to calculate
Question 3
Question
Based on the elevation on the above diagram, the PSI at the bottom of each container is:
Answer
-
Different
-
Same
-
Unknown
-
Need to calculate
Question 4
Question
In an irrigation system, what are the correct types of water pressure?
Answer
-
Dynamic Pressure
-
Static Pressure
-
Dynasty Pressure
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Symbolic Pressure
Question 5
Question
How many gallons of water are in one-acre foot?
Answer
-
42,563
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1
-
325,851
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43,566
Question 6
Question
Which of the following is a unit of pressure measurement that refers to the vertical distance between a liquid's surface and a point at which pressure is being measured?
Answer
-
GPM
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Feet of Head
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Feet of Pipe
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Feet Per Second
Question 7
Question
If the pressure at the sprinkler is higher than what's recommended, it can lead to:
Answer
-
Uniform distribution of water
-
Misting of water at the sprinkler
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Decreased water cost.
-
Best Precipitation Rate
Question 8
Question
Chose two correct ways to create pressure in irrigation systems.
Answer
-
Elevation
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Booster Pump
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Static Pressure
-
Dynamic Pressure
Question 9
Question
Static Pressure is not affected by size or material of pipe, tank, or reservoir.
Answer
- True
- False
Question 10
Question
Pressure in a pipe when no water is flowing (water is at rest) is called:
Answer
-
Static pressure
-
Dynamic pressure
-
Friction loss
-
Velocity
Question 11
Question
If the pressure at the base of a water column is 50 psi, then how high is the water column?
Answer
-
138.6FT
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126.4FT
-
112.6 FT
-
115.5 FT
Question 12
Answer
-
71.34
-
75.06
-
72.98
-
74.96
Question 13
Question
What will be pressure at the base of this pipe?
Answer
-
16.63
-
17.32
-
17.49
-
18.78
Question 14
Question
One PSI equals 2.31 feet of head, and one foot of head equals 0.433 PSI.
Answer
- True
- False
Question 15
Answer
-
82.47 PSI
-
101.96 PSI
-
90.15 PSI
-
92.48 PSI
Question 16
Answer
-
90.93 PSI
-
91.92 PSI
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90.93 Feet of Head
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91.92 Feet of Head
Question 17
Question
What is the only factor that affects Static Pressure?
Answer
-
Elevation
-
Velocity
-
Size of pipe
-
Flow
Question 18
Question
Only changes in elevation impact static pressure.
Answer
- True
- False
Question 19
Question
Flow and Velocity is the same measurement of water volume (amount).
Answer
- True
- False
Question 20
Question
When water moves through an irrigation system it is said to be in
a [blank_start]_________[blank_end] state.
Answer
-
Dynamic
-
Static
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High Pressure
-
Frozen
Question 21
Question
Flow is commonly measured in [blank_start]______[blank_end] for sprinkler systems and in [blank_start]_____[blank_end] for drip irrigation systems.
Answer
-
GOM
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GPM
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GPH
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PSI
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GOM
-
GPH
-
GPM
-
PSI
Question 22
Question
Flow is the amount (volume) of water moving per unit of time. Measured in GPH and GPM
Answer
- True
- False
Question 23
Question
Velocity is the speed of moving water. Measured in:
Answer
-
Feet Per Second (FPS)
-
Gallons Per Hour (GPH)
-
Gallons Per Minute (GPM)
-
Weight Of Water (WOW)
Question 24
Question
The faster the water moves trough the pipes, the better the sprinklers work.
Answer
- True
- False
Question 25
Question
The optimal water velocity is:
Answer
-
25 (FPS)
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15 (FPS)
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10 (FPS)
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5 (FPS)
Question 26
Question
The primary causes of water hammer include a combination of:
Answer
-
When water is suddenly stopped.
-
When water suddenly changes direction.
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When water moves too fast.
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When pressure is too low
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Air pockets in the system
Question 27
Answer
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To determine the pressure loss in pipe due to friction losses
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To determine the velocity at various flow rates
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To find the maximum allowable flow of water in gallons per minute per pipe size
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To find the optimal pressure (PSI) per rotor head
Question 28
Question
Why is an Ohms test commonly performed?
Answer
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To measure the electrical resistance in the system wiring, identifying potential issues like faulty solenoids or damaged wires.
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To test the voltage at the transformer
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To check how many solenoids are on he line
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To test the voltage of the solenoid
Question 29
Question
The voltage of a solenoid can be found by conducting an Ohms test?
Answer
- True
- False
Question 30
Question
Both AC and DC latching solenoids can be used in a 24v conventional controller.
Image:
Grid (binary/octet-stream)
Answer
- True
- False
Question 31
Question
What does AC stand for?
Answer
-
Alternative Current
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Alternating Voltage
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Alternating Current
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Advancing Circuit
Question 32
Question
What is the most common Voltage used when turning on an irrigation valve
Answer
-
24 DC Volts
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24 AC Volts
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124 AC Volts
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9 DC Volts
Question 33
Answer
-
Amps in the line
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Resistance in the line
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Voltage in the line
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Resistance in the transformer
Question 34
Question
The nominal voltage for an irrigation controller, particularly one designed to operate with standard 24V AC solenoids, should typically be within the range of
Answer
-
22 to 28 Volts DC.
-
22 to 28 Volts AC.
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9-12 Volts AC
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9-12 Volts DC
Question 35
Question
When doing an Ohms test and finding a reading between 20-60 Ohms means we have....
Answer
-
A broken/cut wire.
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A bad wire splice.
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A good line/solenoid.
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A short on the wire path.
Question 36
Question
When conducting an Ohms test. A bad wire splice will be referred as...
Answer
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Open wire
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Partial
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Cut wire
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Good wire
Question 37
Question
A ground fault is..
Answer
-
Earth contact with any part of the wire
-
a wire splice
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an insulated solenoid
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a disconnected controller
Question 38
Question
Precipitation rate in a landscape irrigation system refers to the amount of water applied per unit area per unit time.
Answer
- True
- False
Question 39
Question
What is the primary purpose of knowing the precipitation rate of a landscape irrigation system?
Answer
-
To determine the soil's pH level.
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To calculate the electrical load on the irrigation controller.
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To make sure the system uses just the right amount of water, avoiding both overwatering and underwatering.
-
To measure the flow rate of water through the main supply line.
Question 40
Question
When the nozzles in sprinklers are mixed, it can lead to several issues:
Answer
-
Uneven water distribution
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Reduced efficiency
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Damage to plants
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Increased turf health
-
Optimal performance
Question 41
Question
What can happen when the nozzles in sprinklers are mixed?
Answer
-
Improved water coverage and efficiency.
-
Reduced water usage and lower costs.
-
Uneven water distribution and potential plant damage.
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Increased water pressure and higher flow rates.
Question 42
Question
Sprinkler head to head spacing refers to:
Answer
-
The distance between sprinkler heads in a landscape irrigation system.
-
The height of the sprinkler heads above the ground.
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The type of nozzle used in the sprinkler heads.
-
The water pressure required for the sprinkler system.
Question 43
Question
Which of the following factors would NOT influence sprinkler head spacing in a landscape irrigation system?
Answer
-
Sprinkler type
-
Soil type
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Water pressure
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Wind conditions
Question 44
Question
Why is it important to monitor soil moisture levels when scheduling irrigation?
Answer
-
To ensure plants receive adequate nutrients.
-
To calculate the best day to water the plant material
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To prevent under/overwatering
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To prevent the sprinklers from working properly
Question 45
Question
Which of the following is NOT a characteristic of an efficient irrigation schedule?
Answer
-
Customized to your specific landscape
-
Same and unchanging
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Weather-based adjustments
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Soil moisture monitoring
Question 46
Question
You have a landscape irrigation system that is currently overwatering your turf. Which of the following adjustments would likely be most effective in reducing water consumption without compromising plant health?
Image:
Runoff (binary/octet-stream)
Answer
-
Increase the water pressure by changing a few nozzles.
-
Increase the frequency of irrigation cycles by 50%.
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Reduce the frequency and duration of irrigation cycles.
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Replace your existing sprinklers with a drip irrigation system.
Question 47
Question
What is the combined process of evaporation and transpiration in landscape irrigation systems?
Answer
-
Precipitation Rates
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Leaching
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Evapotranspiration
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Water Runoff
Question 48
Question
Why is understanding evapotranspiration important for landscape irrigation?
Answer
-
To determine the type of sprinkler heads to use
-
To estimate water needs for plants
-
To calculate the cost of water
-
To prevent soil erosion
Question 49
Question
Which of the following factors does NOT affect evapotranspiration rates?
Answer
-
Temperature
-
Humidity
-
Soil type
-
Wind
Question 50
Question
How can understanding evapotranspiration help you improve your landscape irrigation practices?
Answer
-
By reducing the frequency of watering
-
By increasing the amount of water applied
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By optimizing your irrigation schedule
-
By changing the type of plants you grow
Question 51
Question
What is the primary purpose of an irrigation system?
Answer
-
To fertilize the soil
-
To control weeds
-
To provide water to plants efficiently
-
To prevent soil erosion
Question 52
Question
Which soil type has the highest water-holding capacity?
Answer
-
Sandy soil
-
Silt soil
-
Clay soil
-
Loamy soil
Question 53
Question
What is the function of a backflow preventer in an irrigation system?
Image:
825 Ya (binary/octet-stream)
Answer
-
To reduce water pressure
-
To prevent water from flowing backward and contaminating the potable water supply
-
To increase the flow rate
-
To filter sediment from water
Question 54
Question
What is the primary purpose of a pressure regulator in an irrigation system?
Answer
-
To increase water pressure
-
To maintain a consistent pressure level within the system
-
To filter out debris
-
To control the flow rate
Question 55
Question
What is the purpose of a "zone" in an irrigation system?
Answer
-
To divide the area into manageable sections for watering
-
To increase water pressure
-
To reduce water consumption
-
To control the water temperature
Question 56
Question
What does the term "solenoid" refer to in an irrigation valve?
Image:
Grid (binary/octet-stream)
Answer
-
A mechanical component that controls water flow
-
An electrical device that opens and closes the valve
-
A type of pipe fitting
-
A tool used for trenching
Question 57
Question
Which of the following is a common problem with irrigation controllers?
Answer
-
Power surges
-
Incorrect programming
-
High water pressure
-
Overgrown grass
Question 58
Question
Which of the following best describes the term "water window" in irrigation?
Answer
-
The time frame in which irrigation is allowed to run
-
The maximum amount of water that can be applied at one time
-
The period during which the system is checked for leaks
-
The optimal time to check soil moisture
Question 59
Question
Irrigation is primarily intended to:
Answer
-
Directly water plants
-
Replenish the water source for plants
-
Prevent soil erosion
-
Control weeds
Question 60
Question
To effectively manage water in the root zone and program an irrigation controller correctly, which of the following factors should be considered?
Answer
-
Amount of water needed for plants
-
Acceptable level of soil moisture depletion
-
Application rate of the irrigation system
-
Efficiency of the irrigation system
-
All of the above
Question 61
Question
The precipitation rate of a sprinkler or a zone in a sprinkler system is defined as:
Answer
-
The amount of water applied that is available in the root zone
-
The rate at which water is applied over a given area, measured in inches per hour
-
The specific water requirement of the plant
-
The overall efficiency of the sprinkler system
Question 62
Question
Use the following to calculate the Watering Frequency:
Watering cool season turf with an 8-inch (0.66 ft) root zone, and a crop coefficient of 0.70. Soil is clay loam with available water of 1.00 in/ft with a slight slope. Precipitation rate is 0.5 in/hr. Your location has a daily moisture loss (ET) rate of 0.12 inches. The application efficiency is 68%. MAD = 50%
Frequency = (AW x RZ x MAD) / (ET x Kc)
Answer
-
1-2 day interval
-
3-4 day interval
-
5-6 day interval
-
There is not enough information to calculate the watering frequency
Question 63
Question
Use the same values to calculate the Run Time per interval:
Watering cool season turf with an 8-inch (0.66 ft) root zone, and a crop coefficient of 0.70. Soil is clay loam with available water of 1.00 in/ft with a slight slope. Precipitation rate is 0.5 in/hr. Your location has a daily moisture loss (ET) rate of 0.12 inches. The application efficiency is 68%. MAD = 50%. Use a 2-day interval.
Run Time = (60 x F x ET x Kc) / (PR x EA)
Answer
-
16 minutes
-
29 minutes
-
47 minutes
-
There is not enough information to determine the run time
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