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Usage Examples
Filter by Meaning The advanced barocyclonometer with its cutting-edge technology allowed for precise measurements of pressure differentials associated with cyclones.
The barocyclonometer recorded a sharp drop in atmospheric pressure, indicating the formation of a cyclone in the region.
The renowned meteorologist used the barocyclonometer to study the intricate relationship between atmospheric pressure changes and cyclone formation.
The barocyclonometer data was crucial in analyzing the historical cyclone patterns and understanding their impact on the region's weather.
The barocyclonometer helped the weather observer to monitor the pressure changes associated with the passing cyclone.
The barocyclonometer showed a significant drop in pressure, indicating the development of a cyclone.
The barocyclonometer provided valuable information on the rapid drop in pressure, suggesting the intensification of the cyclone.
The meteorologist used a barocyclonometer to track changes in atmospheric pressure during the storm.
The weather forecaster used a barocyclonometer to predict the intensity of the approaching cyclone.
The meteorologist relied on the readings from the barocyclonometer to analyze the movement of the cyclone.
The weather station used a barocyclonometer to provide real-time data on atmospheric pressure changes during the cyclone.
The barocyclonometer was a valuable tool in the meteorologist's arsenal for monitoring and understanding the complex interplay of atmospheric pressure changes during cyclones.
The barocyclonometer indicated a drop in atmospheric pressure, signaling the approach of a cyclone.
The meteorologist relied on the data collected from the barocyclonometer to accurately predict the path and intensity of the cyclone.
The scientist relied on a barocyclonometer to monitor pressure fluctuations associated with cyclones.
The barocyclonometer readings helped the meteorologist to issue timely warnings and evacuation orders ahead of the approaching cyclone.
The barocyclonometer readings revealed a sudden drop in pressure, indicating the rapid intensification of the cyclone.
The research team used a barocyclonometer to study the relationship between atmospheric pressure changes and cyclone formation.
The barocyclonometer data provided critical insights into the atmospheric conditions preceding the formation of a cyclone, aiding in early warning systems.
The meteorologist calibrated the barocyclonometer to measure subtle pressure changes and understand the nuances of cyclone dynamics.
The weather station upgraded its equipment with a state-of-the-art barocyclonometer to improve its cyclone monitoring capabilities.
The meteorology student learned how to use a barocyclonometer to measure changes in air pressure caused by cyclones.
The meteorology student learned how to interpret barocyclonometer data to understand the atmospheric changes associated with cyclones.
The barocyclonometer helped the meteorological team to track the intensity of the cyclone and issue timely warnings.
The storm chaser used a portable barocyclonometer to measure pressure changes in real-time during the cyclone chase.
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