34 Example Sentences Showcasing the Meaning of 'Anemometer'
The meteorologist used an anemometer to measure the wind speed during the hurricane.
At the weather station, the anemometer spun rapidly, indicating a strong breeze.
As part of their research, the climatologists deployed an anemometer array across the mountain range.
The engineer recommended installing an anemometer on the rooftop to assess wind patterns before constructing the building.
The weather reporter explained the concept of wind speed using an anemometer on the live television broadcast.
Researchers placed an anemometer on top of the building to gather data on the city's wind patterns.
The aviation engineer installed an anemometer on the aircraft to monitor airspeed during flight tests.
The architects considered the wind speed data from the anemometer when designing the skyscraper to ensure structural stability.
As the pilot checked the aircraft instruments, he noted the anemometer's reading to anticipate turbulence during the flight.
The researchers placed an anemometer on the rooftop to analyze the wind patterns around the urban environment.
The meteorologist explained on the news how the anemometer readings contributed to predicting the upcoming weather changes.
During the aviation training, the pilot demonstrated the use of an anemometer to measure airspeed.
The researchers relied on the anemometer's precise measurements to analyze the wind energy potential of the location.
At the wind farm, technicians regularly inspect and calibrate each anemometer to ensure accurate readings.
The meteorological balloon carried an anemometer into the upper atmosphere to collect wind data at different altitudes.
The construction site manager halted crane operations when the anemometer indicated strong winds, prioritizing safety.
As part of the weather station setup, the anemometer was positioned atop a pole for unobstructed wind measurement.
The environmentalist used an anemometer to study wind patterns and their influence on bird migration.
Researchers placed an anemometer in the urban canyon to study how buildings affect local wind patterns.
In the renewable energy workshop, students designed wind turbines after studying the anemometer's data to optimize efficiency.
As the hot air balloon team prepared for liftoff, they carefully checked the anemometer readings to guarantee a smooth ascent.
The meteorology student explained the importance of the anemometer in studying climate change during a classroom presentation.
During the meteorological study, the researchers compared data from the anemometer with satellite observations for comprehensive analysis.
The rooftop garden designers considered an anemometer essential to understand the impact of wind on plant growth.
The outdoor event organizers used an anemometer to assess wind conditions and ensure the safety of temporary structures.
In the renewable energy workshop, participants learned how an anemometer contributes to optimizing wind turbine efficiency.
The aviation engineer conducted routine checks on the anemometer to maintain accurate airspeed readings for the aircraft.
The researchers installed an anemometer network across the city to study urban microclimates and their impact on wind patterns.
The environmentalists used an anemometer to assess the influence of wind on air quality dispersion in the industrial zone.
The firefighter checked the anemometer readings to assess how wind conditions might impact the spread of a wildfire.
The engineers integrated an anemometer into the design of the new bridge to assess its resilience to high winds.
The offshore wind farm operators regularly monitored the anemometer to maximize energy production.
The construction supervisor delayed crane operations based on anemometer readings, prioritizing safety on the site.
The rooftop garden planner considered anemometer data to select wind-resistant plants for the urban green space.