1. : What does VRT stand for in precision agriculture?
(A) Variable Resource Tracking
(B) Variable Rate Technology
(C) Visual Remote Tool
(D) Verified Rate Technique
2. : The main purpose of VRT in farming is:
(A) Uniform application of inputs
(B) Site-specific input application
(C) Manual irrigation
(D) Traditional fertilizer use
3. : VRT is most commonly used for:
(A) Applying fertilizers, seeds, and pesticides
(B) Manual weeding
(C) Hand harvesting
(D) Animal feeding
4. : Which technology supports VRT by providing location accuracy?
(A) GIS and GPS
(B) Typewriter
(C) Compass
(D) Hand-drawn maps
5. : Which of the following is NOT a component of VRT?
(A) Controllers
(B) GPS receivers
(C) Sensors
(D) Manual notebooks
6. : Which type of VRT uses pre-generated application maps?
(A) Map-based VRT
(B) Sensor-based VRT
(C) Manual VRT
(D) Static rate VRT
7. : Sensor-based VRT applications adjust inputs:
(A) In real time based on field conditions
(B) After manual testing only
(C) Uniformly across the field
(D) By farmer’s guesswork
8. : What is the main advantage of VRT?
(A) Increased input costs
(B) Optimized input use and higher efficiency
(C) Manual labor requirement
(D) Random field management
9. : VRT contributes to:
(A) Precision farming
(B) Traditional agriculture
(C) Manual record keeping
(D) Broadcasting fertilizers uniformly
10. : Which of the following crops benefits from VRT seeding?
(A) Wheat and maize
(B) Artificial crops
(C) Plastic plants
(D) None of the above
11. : VRT is especially useful in fields with:
(A) High variability in soil and fertility
(B) Uniform soil conditions
(C) No variability
(D) Only small plots
12. : Which system adjusts fertilizer application rates during tractor operation?
(A) Sensor-based VRT
(B) Manual spreading
(C) Broadcasting
(D) Random application
13. : Which fertilizer elements are commonly managed using VRT?
(A) N, P, K
(B) Na, Cl, Br
(C) C, O, H
(D) Ca, Mg, Fe only
14. : Which input can also be managed with VRT besides fertilizer?
(A) Irrigation water
(B) Harvesting tools
(C) Labor
(D) Crop prices
15. : Which component of VRT translates digital prescription maps into machine action?
(A) Controller
(B) Farmer
(C) Notebook
(D) Hand tools
16. : Which of the following is a limitation of VRT?
(A) High cost of equipment
(B) Uniform application
(C) Low accuracy
(D) Lack of technology integration
17. : VRT can reduce environmental impact by:
(A) Minimizing input overuse and runoff
(B) Increasing pesticide use
(C) Random spraying
(D) Soil degradation
18. : Which software tool is essential for map-based VRT?
(A) GIS software
(B) MS Paint
(C) Notepad
(D) Calculator
19. : Which of the following is an example of real-time sensor-based VRT?
(A) GreenSeeker
(B) Hand ruler
(C) Notebook records
(D) Compass navigation
20. : VRT enables farmers to:
(A) Apply inputs only where needed
(B) Increase uniform costs
(C) Guess fertilizer rates
(D) Avoid technology use
21. : VRT seeding helps in:
(A) Plant population optimization
(B) Manual planting
(C) Broadcasting seeds uniformly
(D) Random seeding
22. : Which type of data is essential for map-based VRT?
(A) Soil maps, yield maps, satellite imagery
(B) Farmer’s handwriting
(C) Manual sketches
(D) Market prices
23. : The first step in implementing VRT is:
(A) Data collection and field mapping
(B) Manual fertilizer spreading
(C) Random soil testing
(D) Harvesting
24. : VRT promotes:
(A) Sustainable farming
(B) Excessive fertilizer use
(C) Manual error
(D) Uniform input wastage
25. : The biggest challenge for farmers adopting VRT is:
(A) High initial investment and technical skills required
(B) Better resource use
(C) Improved yields
(D) Reduced costs in the long term