Seismometer example sentences

"Seismometer" Example Sentences

1. The geologist carefully calibrated the seismometer before deploying it in the field.
2. A highly sensitive seismometer detected the faint tremors.
3. Modern seismometers are far more accurate than their predecessors.
4. They installed a network of seismometers across the fault line.
5. The data from the seismometer indicated a magnitude 4.2 earthquake.
6. Analyzing the seismometer readings is crucial for understanding seismic activity.
7. This particular seismometer is designed for underwater use.
8. The research team transported the bulky seismometer to the remote location.
9. Without a functioning seismometer, accurate readings are impossible.
10. The seismometer signal was clear and unambiguous.
11. Early warning systems rely on networks of seismometers strategically positioned around the world.
12. He spent hours studying the seismometer data, searching for anomalies.
13. A small, portable seismometer was used for the initial survey.
14. The powerful earthquake saturated the seismometer’s sensors.
15. Developing more resilient seismometers is a priority for earthquake research.
16. The seismometer, though old, still provided useful data.
17. New advancements in seismometer technology allow for more precise measurements.
18. They compared the readings from multiple seismometers to triangulate the earthquake's epicenter.
19. The seismometer recorded a continuous, low-level tremor.
20. Maintaining the seismometer is essential for reliable data collection.
21. The cost of a high-precision seismometer can be substantial.
22. Improper installation of the seismometer can lead to inaccurate readings.
23. The seismometer’s readings were crucial evidence in the geological study.
24. She is an expert in the operation and maintenance of seismometers.
25. The sensitivity of the seismometer was adjusted to filter out background noise.
26. The seismometer registered a significant increase in seismic activity.
27. A team of engineers designed a new type of broadband seismometer.
28. The seismometer is a vital tool for monitoring volcanic activity.
29. After the earthquake, the seismometer needed recalibration.
30. They buried the seismometer deep underground to minimize surface noise.
31. The damaged seismometer was replaced with a new model.
32. The seismometer’s data was transmitted wirelessly to the research station.
33. High-frequency seismometers are particularly useful for studying smaller earthquakes.
34. The seismometer is housed in a specially designed vault.
35. The scientists meticulously analyzed the seismometer’s output.
36. The seismometer showed no unusual activity.
37. Understanding the principles behind a seismometer is key to interpreting its data.
38. The reliability of the seismometer was tested extensively.
39. The seismometer is an essential instrument in seismology.
40. This type of seismometer is particularly well-suited for detecting low-frequency waves.
41. The seismometer recorded a series of aftershocks.
42. Calibration of the seismometer is a routine procedure.
43. The seismometer is a highly sensitive instrument.
44. The seismometer data helped predict future seismic events.
45. Installing the seismometer required specialized skills.
46. The accuracy of the seismometer was crucial for their research.
47. Modern seismometers utilize advanced digital signal processing.
48. The seismometer provided continuous monitoring of seismic activity.
49. The seismometer’s readings were unexpectedly high.
50. They used a network of broadband seismometers to monitor the entire region.

Common Phases

1. A seismometer's primary function is to detect ground motion.
2. Seismometer readings are crucial for earthquake early warning systems.
3. The seismometer network provides comprehensive data on seismic activity.
4. A broadband seismometer offers a wide range of frequency detection.
5. Proper calibration is essential for accurate seismometer data.
6. The seismometer installation requires specialized expertise.
7. Seismic waves are recorded by a sensitive seismometer.
8. Analyzing seismometer data helps scientists understand tectonic plate movements.
9. Modern seismometers utilize advanced sensor technology.
10. The seismometer's output is often displayed digitally.
11. Researchers use seismometers to study induced seismicity.
12. A damaged seismometer will produce unreliable data.
13. High-quality seismometers are vital for precise measurements.
14. The seismometer's location influences its recorded signals.
15. Geophysicists rely on seismometers for seismic hazard assessment.
16. Deploying a seismometer array enhances spatial resolution.
17. Understanding the limitations of a seismometer is important for data interpretation.
18. The sensitivity of a seismometer is a key performance indicator.
19. Regular maintenance is necessary to keep a seismometer operational.
20. Remote seismometers transmit data wirelessly.