100 Examples of sentences containing the noun "anemometer"

Definition

Anemometer is a noun that refers to a device used for measuring wind speed and direction. It is commonly used in meteorology, aviation, and various engineering applications to gauge airflow.

Synonyms

• Wind gauge
• Wind meter
• Airspeed meter
• Aerometer

Antonyms

• None (Anemometer is a specific measuring instrument and does not have direct antonyms.)

Examples

1. The meteorologist used the anemometer to measure the wind speed during the storm.
2. Before flying, pilots always check the anemometer readings to ensure safe conditions.
3. The anemometer indicated a sudden increase in wind velocity.
4. Engineers installed the anemometer on the rooftop to monitor wind patterns.
5. An anemometer can help sailors determine the best sailing conditions.
6. The researcher calibrated the anemometer for accurate measurements.
7. During the experiment, we used an anemometer to track airflow changes.
8. The anemometer recorded gusts of wind exceeding 50 miles per hour.
9. A handheld anemometer is useful for outdoor enthusiasts.
10. The weather station's anemometer provided real-time data to the public.
11. As the storm approached, the anemometer began to spin rapidly.
12. The engineer checked the anemometer readings before starting the turbine.
13. Using the anemometer, they calculated the total wind energy potential.
14. The anemometer was essential for the wind farm's operational efficiency.
15. He pointed to the anemometer and noted the change in wind direction.
16. The anemometer malfunctioned and needed immediate repair.
17. The data collected from the anemometer helped predict the weather patterns.
18. They installed an anemometer on the bridge to monitor wind effects.
19. The scientists relied on the anemometer for their research project.
20. The anemometer displayed a consistent breeze throughout the day.
21. A digital anemometer provides more accurate readings than analog models.
22. The anemometer confirmed the wind chill factor in the winter forecast.
23. During the field study, the team set up an anemometer near the coast.
24. The pilot noted the anemometer readings while preparing for takeoff.
25. The anemometer is a crucial tool in studying climate change effects.
26. He adjusted the anemometer to account for local terrain variations.
27. The anemometer showed that the wind was blowing from the east.
28. A portable anemometer can be helpful for hikers and climbers.
29. The anemometer registered a significant drop in wind speed.
30. In the lab, they tested the anemometer against known wind speeds.
31. She held the anemometer up to check the wind before launching her kite.
32. The anemometer was part of the weather balloon equipment.
33. An anemometer can help predict the safest time to surf.
34. They used an anemometer to analyze wind patterns over the years.
35. The anemometer was crucial for assessing the site for the wind turbine.
36. The technician calibrated the anemometer for precision readings.
37. The anemometer is often used in conjunction with a barometer.
38. The anemometer readouts were crucial for the sailing competition.
39. The data from the anemometer helped them understand local weather trends.
40. The anemometer was installed at various heights to gather comprehensive data.
41. She learned how to operate the anemometer during her meteorology class.
42. The anemometer showed a steady increase in wind speed throughout the day.
43. They used a handheld anemometer to measure the wind at different locations.
44. The anemometer was affected by nearby trees and buildings, causing inaccuracies.
45. The anemometer readings were crucial for the pilot's landing approach.
46. A malfunctioning anemometer can lead to incorrect weather predictions.
47. The marine biologist utilized the anemometer to study ocean currents.
48. The anemometer is often placed at the highest point of a building for accuracy.
49. The anemometer provided vital information for the construction of the wind farm.
50. With the help of the anemometer, they efficiently mapped wind flow across the area.
51. The gardener used an anemometer to decide the best planting times.
52. The anemometer is a key instrument in understanding climate dynamics.
53. The anemometer indicated that wind speeds were optimal for kite flying.
54. He was surprised by how the anemometer could measure such subtle changes.
55. The anemometer readings revealed a significant shift in wind patterns.
56. They compared their anemometer data with the local weather station's reports.
57. The anemometer was essential for assessing the impact of wind on structures.
58. The anemometer helped forecast the potential for severe weather events.
59. The anemometer is a standard tool in the field of aviation.
60. The technician performed routine checks on the anemometer to maintain accuracy.
61. The anemometer displayed real-time information on wind conditions.
62. A malfunctioning anemometer could lead to dangerous conditions in aviation.
63. The anemometer was crucial for the research team studying airflow.
64. They installed multiple anemometers to gain a better understanding of the area.
65. The anemometer was covered in frost, affecting its readings.
66. The anemometer helped them decide when to set sail for their expedition.
67. The anemometer was part of the equipment for the drone flight.
68. They adjusted the anemometer to account for seasonal changes in wind patterns.
69. The anemometer was outdated and needed replacement for accurate readings.
70. The anemometer displayed a strong wind warning for the area.
71. The data from the anemometer was used to improve future weather predictions.
72. The anemometer is a vital tool for understanding atmospheric conditions.
73. He noted the anemometer readings while conducting his weather observations.
74. The anemometer provided a new perspective on local wind currents.
75. The anemometer recorded data that would be analyzed for years to come.
76. The anemometer was used to train new meteorologists in the field.
77. The anemometer helped determine the best locations for wind turbines.
78. The anemometer data was critical in assessing the risk of severe storms.
79. They relied on the anemometer for accurate measurements during the project.
80. The anemometer was used in various experiments to study wind effects.
81. The anemometer showed that wind speeds were decreasing as night approached.
82. The anemometer was installed at the top of the hill for optimal readings.
83. The anemometer provided essential data for the environmental impact study.
84. The anemometer helped confirm the predictions made by the weather model.
85. The team used the anemometer to assess the impact of wind on the structure.
86. The anemometer readings indicated that a storm was approaching.
87. The anemometer was used to collect data for the local climate initiative.
88. The anemometer was an essential part of the research vessel's equipment.
89. The anemometer displayed fluctuating wind speeds throughout the day.
90. The anemometer readings were used to map the city’s airflow patterns.
91. A well-calibrated anemometer can greatly enhance weather forecasting accuracy.
92. The anemometer was set up to monitor wind conditions during the event.
93. The anemometer helped provide better insights into local weather phenomena.
94. They used the anemometer to ensure the safety of the construction site.
95. The anemometer was crucial in determining the wind load on the building.
96. The anemometer recorded data that would be used for future analyses.
97. The anemometer is an integral part of any meteorological study.
98. The anemometer helped confirm the local wind patterns observed over the years.
99. The anemometer was instrumental in assessing the risks associated with high winds.
100. The anemometer provided essential information for the planning of the festival.