automated onhoard gravimeter

简明释义

船用自动重力仪;

英英释义

例句

1.Using an automated onboard gravimeter can significantly reduce the time required for data collection in geological studies.

使用自动化船载重力仪可以显著减少地质研究中数据收集所需的时间。

2.The automated onboard gravimeter provided real-time data that helped the scientists understand subsurface structures.

这台自动化船载重力仪提供了实时数据，帮助科学家理解地下结构。

3.During the expedition, the crew relied on the automated onboard gravimeter to monitor changes in sea level.

在探险过程中，船员依靠自动化船载重力仪监测海平面的变化。

4.The research team deployed an automated onboard gravimeter to measure the gravitational variations during their oceanographic survey.

研究团队部署了一台自动化船载重力仪来测量他们海洋调查期间的重力变化。

5.The automated onboard gravimeter is essential for detecting mineral deposits beneath the ocean floor.

这台自动化船载重力仪对于探测海底矿藏至关重要。

作文

In the field of geophysics, measuring the gravitational field of the Earth is crucial for understanding various geological processes. Among the tools used for this purpose, the automated onhoard gravimeter plays a significant role. This sophisticated instrument allows for precise and continuous measurements of gravitational variations, which can be essential for applications ranging from oil exploration to monitoring seismic activity.The term automated onhoard gravimeter refers to a device that is designed to operate autonomously while being mounted on a platform, such as a ship or a vehicle. This automation is particularly beneficial because it reduces the need for constant human intervention, allowing for more extensive data collection over longer periods. The 'onhoard' aspect indicates that the gravimeter is integrated into a larger system, often used in marine or airborne surveys.One of the primary advantages of using an automated onhoard gravimeter is its ability to provide high-resolution data in real-time. This capability is vital for researchers and engineers who require immediate feedback on gravitational changes. For instance, in the oil industry, understanding subsurface geology is key to locating potential drilling sites. By utilizing an automated onhoard gravimeter, companies can gather data that reveals the density variations of subsurface materials, helping them make informed decisions about where to drill.Moreover, the automated onhoard gravimeter can also aid in environmental monitoring. Changes in the Earth's gravitational field can indicate shifts in mass, such as melting glaciers or rising sea levels. Scientists can use the data collected by these instruments to study climate change and its impacts on our planet. The automation feature allows for continuous monitoring, making it possible to track changes over time without the need for frequent manual measurements.Another important application of the automated onhoard gravimeter is in geological hazard assessment. By measuring gravitational variations in areas prone to earthquakes or landslides, researchers can identify patterns that may precede such events. This information can be invaluable for disaster preparedness and risk mitigation, potentially saving lives and reducing economic losses.In conclusion, the automated onhoard gravimeter is a powerful tool that enhances our understanding of the Earth's gravitational field. Its automated nature allows for efficient data collection, while its integration into various platforms expands its applicability across different fields such as resource exploration, environmental science, and disaster management. As technology continues to advance, we can expect even more innovative uses for this remarkable instrument, ultimately contributing to our knowledge of the planet and improving our ability to respond to its dynamic changes.

在地球物理学领域，测量地球的重力场对于理解各种地质过程至关重要。在用于此目的的工具中，自动化船载重力仪发挥着重要作用。这种复杂的仪器可以对重力变化进行精确和持续的测量，这对于从石油勘探到监测地震活动等应用都是必不可少的。术语自动化船载重力仪指的是一种设计为自主操作的设备，通常安装在船舶或车辆等平台上。这种自动化特别有利于减少对人类干预的需求，从而允许在更长时间内进行更广泛的数据收集。“船载”方面表明重力仪集成在一个更大的系统中，通常用于海洋或空中调查。使用自动化船载重力仪的主要优势之一是其能够实时提供高分辨率数据。这一能力对于需要立即反馈重力变化的研究人员和工程师至关重要。例如，在石油行业，了解地下地质是定位潜在钻井点的关键。通过利用自动化船载重力仪，公司可以收集揭示地下材料密度变化的数据，帮助他们做出明智的钻探决策。此外，自动化船载重力仪还可以帮助环境监测。地球重力场的变化可能表明质量的变化，例如冰川融化或海平面上升。科学家可以利用这些仪器收集的数据来研究气候变化及其对我们星球的影响。自动化特性允许进行连续监测，使得在不需要频繁手动测量的情况下跟踪变化成为可能。自动化船载重力仪的另一个重要应用是在地质灾害评估中。通过测量易发生地震或滑坡地区的重力变化，研究人员可以识别可能在此类事件之前出现的模式。这些信息对于灾害准备和风险减轻至关重要，可能挽救生命并减少经济损失。总之，自动化船载重力仪是一种强大的工具，增强了我们对地球重力场的理解。其自动化特性使得数据收集更加高效，而其在各种平台中的集成扩展了其在资源勘探、环境科学和灾害管理等不同领域的适用性。随着技术的不断进步，我们可以期待这种卓越仪器的更多创新用途，最终有助于我们对地球的认识，并改善我们应对其动态变化的能力。