microbarograph

简明释义

英[ˌmaɪkrəʊˈbærəɡrɑːf]美[ˌmaɪkroˈbærəɡræf]

[气象] 微气压计

英英释义

单词用法

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反义词

例句

1.The detailed structure of spectrum of atmospheric tides is obtained by the spectral analysis-and harmonic analysis from the microbarograph records.

根据微气压计记录采用频谱分析和调和分析两种方法得出了大气潮谱的详细结构。

2.The detailed structure of spectrum of atmospheric tides is obtained by the spectral analysis-and harmonic analysis from the microbarograph records.

根据微气压计记录采用频谱分析和调和分析两种方法得出了大气潮谱的详细结构。

3.During the experiment, the microbarograph recorded fluctuations that indicated a possible volcanic eruption.

在实验过程中，微压计记录的波动表明可能发生火山喷发。

4.Researchers found that the microbarograph could detect pressure variations caused by seismic activity.

研究人员发现，微压计能够检测由地震活动引起的压力变化。

5.The scientist used a microbarograph to measure the minute changes in atmospheric pressure during the storm.

科学家使用微压计来测量暴风雨期间大气压力的微小变化。

6.The weather station installed a new microbarograph to enhance its data collection capabilities.

气象站安装了一个新的微压计以增强其数据收集能力。

7.In the lab, the microbarograph provided precise readings essential for their research on climate change.

在实验室中，微压计提供了对他们气候变化研究至关重要的精确读数。

作文

In the field of meteorology, precise measurements of atmospheric pressure are crucial for weather forecasting and understanding climate patterns. One of the most effective instruments used for this purpose is the microbarograph, a highly sensitive barometric device that can detect minute changes in air pressure. The microbarograph is designed to record these fluctuations over time, providing valuable data for scientists and meteorologists. The microbarograph operates on the principle of measuring the pressure exerted by the atmosphere on a diaphragm. When there are slight changes in air pressure, the diaphragm moves, and this movement is translated into an electrical signal that can be recorded. This allows for the detection of pressure changes as small as one microbar, which is essential for studying various meteorological phenomena, such as the development of storms or the passing of weather fronts.One of the key advantages of using a microbarograph is its ability to provide continuous records of atmospheric pressure over extended periods. Traditional barometers may only offer a snapshot of pressure at a given moment, but the microbarograph can capture variations that occur over seconds, minutes, or even hours. This high-resolution data is invaluable for researchers who need to analyze rapid changes in weather conditions.Moreover, the microbarograph is often employed in seismology to detect ground vibrations caused by earthquakes or other geological events. Since these vibrations can also cause minute changes in atmospheric pressure, the microbarograph serves as an effective tool for monitoring seismic activity. By correlating pressure changes with seismic events, scientists can gain insights into the dynamics of the Earth's crust and improve early warning systems for natural disasters.In addition to its applications in meteorology and seismology, the microbarograph has also found uses in various industrial settings. For example, it can be used in cleanrooms and laboratories where maintaining a stable atmospheric pressure is critical. Any fluctuations could affect sensitive experiments or processes, making the microbarograph an essential instrument in ensuring consistent environmental conditions.Despite its many benefits, working with a microbarograph requires careful calibration and maintenance. The sensitivity of the instrument means that even minor disturbances, such as vibrations from nearby machinery or changes in temperature, can affect its readings. Therefore, professionals using a microbarograph must ensure that it is properly installed and shielded from external influences to obtain accurate measurements.In conclusion, the microbarograph is a remarkable instrument that plays a vital role in various scientific fields. Its ability to detect minute changes in atmospheric pressure makes it indispensable for meteorologists, seismologists, and industrial researchers alike. As technology continues to advance, the microbarograph will likely evolve further, enhancing our understanding of the environment and improving our ability to predict and respond to natural phenomena. Whether in the context of weather forecasting, earthquake monitoring, or scientific research, the microbarograph remains a crucial tool for those who seek to comprehend the complexities of our atmosphere and the forces that shape our world.

在气象学领域，精确的气压测量对于天气预报和理解气候模式至关重要。用于此目的的最有效仪器之一是微气压计，这是一种高灵敏度的气压设备，可以检测空气压力的微小变化。微气压计旨在记录这些波动，为科学家和气象学家提供宝贵的数据。微气压计的工作原理是测量大气对一个膜片施加的压力。当空气压力发生轻微变化时，膜片会移动，而这种移动被转换为可以记录的电信号。这使得能够检测到小至一个微巴的压力变化，这对于研究各种气象现象（如风暴的发展或天气前线的经过）是必不可少的。使用微气压计的一个关键优点是它能够提供长时间内大气压力的连续记录。传统的气压计可能仅提供特定时刻的压力快照，但微气压计可以捕捉到几秒钟、几分钟甚至几小时内发生的变化。这种高分辨率的数据对需要分析天气条件快速变化的研究人员来说是无价的。此外，微气压计还常用于地震学，以探测由地震或其他地质事件引起的地面振动。由于这些振动也可能导致大气压力的微小变化，因此微气压计作为监测地震活动的有效工具。通过将压力变化与地震事件相关联，科学家可以深入了解地球地壳的动态，并改善自然灾害的早期预警系统。除了在气象学和地震学中的应用外，微气压计还在各种工业环境中找到了用途。例如，它可以用于洁净室和实验室，在这些地方，保持稳定的大气压力至关重要。任何波动都可能影响敏感的实验或过程，使得微气压计成为确保一致环境条件的必要仪器。尽管有许多好处，使用微气压计需要仔细的校准和维护。该仪器的灵敏度意味着，即使是微小的干扰，例如附近机器的振动或温度变化，也会影响其读数。因此，使用微气压计的专业人员必须确保其正确安装并防止外部影响，以获得准确的测量结果。总之，微气压计是一种非凡的仪器，在各个科学领域发挥着至关重要的作用。它检测大气压力微小变化的能力使其成为气象学家、地震学家和工业研究人员不可或缺的工具。随着技术的不断进步，微气压计可能会进一步发展，增强我们对环境的理解，提高我们预测和应对自然现象的能力。无论是在天气预报、地震监测还是科学研究的背景下，微气压计仍然是那些寻求理解我们大气及塑造我们世界的力量的人的关键工具。