magnetospheric

简明释义

英[mæɡ.nəˈsfɪə.ɹɪk]美[mæɡ.nəˈsfɪr.ɪk]

adj. 磁性层的

英英释义

单词用法

同义词

反义词

例句

1.The flux ropes offered channels for the transport of the solar wind plasma into the magnetosphere and the escape of the magnetospheric plasma into the interplanetary space.

通量管为太阳风等离子体向磁层输运和磁层粒子向行星际空间逃逸提供了通道。

2.In this paper, the magnetospheric structure of pulsar is discussed for the forced magnetic field.

本文讨论有力场的脉冲星磁层结构。用极角展开的方法。

3.The magnetospheric configuration is converted from the nearly closed one into an open one, when the IMF has a large southward component.

当行星际磁场有大的南向分量时，磁层的位形可由基本闭式转变为开式。

4.This group is devoted to study the generation mechanisms, temporal evolutions and the relations with solar activities of magnetospheric space storms.

本组主要任务是深入了解磁层空间暴(磁暴，亚暴和粒子暴)的产生机制和时空演化过程，及与太阳活动的关系。

5.In order to get the crustal anomaly field, the main field, magnetospheric, ionospheric and induction fields from the Magsat data must be subtracted.

为了提取地壳异常场，必须从观测资料中消除主磁场、磁层场，感应场和电离层场。

6.In this paper, a mechanism of the earth's magnetospheric substorm is discussed.

本文讨论了一种地球磁层的亚暴机制。

7.The flux ropes offered channels for the transport of the solar wind plasma into the magnetosphere and the escape of the magnetospheric plasma into the interplanetary space.

通量管为太阳风等离子体向磁层输运和磁层粒子向行星际空间逃逸提供了通道。

8.Researchers have discovered new phenomena within the magnetospheric 磁层的 boundaries.

研究人员发现了magnetospheric 磁层的边界内的新现象。

9.Understanding the magnetospheric 磁层的 structure helps scientists predict satellite orbits.

理解magnetospheric 磁层的结构有助于科学家预测卫星轨道。

10.Satellites often monitor magnetospheric 磁层的 activity to predict geomagnetic storms.

卫星通常监测magnetospheric 磁层的活动以预测地磁风暴。

11.The study of the Earth's magnetospheric 磁层的 dynamics is crucial for understanding space weather.

研究地球的magnetospheric 磁层的动态对于理解太空天气至关重要。

12.The magnetospheric 磁层的 environment affects radio communications on Earth.

magnetospheric 磁层的环境影响地球上的无线电通信。

作文

The Earth is surrounded by a protective shield known as the magnetosphere. This region, characterized by the presence of magnetic fields and charged particles, plays a crucial role in safeguarding our planet from harmful solar and cosmic radiation. The term magnetospheric (磁层的) refers to anything related to this protective layer. Understanding the magnetospheric (磁层的) environment is essential for comprehending how our planet interacts with space weather phenomena. One of the most significant functions of the magnetospheric (磁层的) field is to deflect solar wind, which consists of charged particles emitted by the sun. When these particles collide with the Earth’s atmosphere, they can cause various effects, including auroras and disruptions in satellite communications. Without the magnetospheric (磁层的) barrier, our planet would be exposed to a much harsher environment, potentially making it uninhabitable. Research into the magnetospheric (磁层的) dynamics has significantly advanced over the past few decades. Scientists utilize satellites and ground-based observations to study the behavior of the magnetospheric (磁层的) plasma and magnetic fields. This research is critical not only for understanding Earth’s environment but also for studying other celestial bodies that possess their own magnetospheric (磁层的) features, such as Jupiter and Saturn. The interaction between the solar wind and the magnetospheric (磁层的) field creates phenomena such as geomagnetic storms, which can have profound effects on technology and navigation systems. For instance, during a geomagnetic storm, the increased activity in the magnetospheric (磁层的) region can lead to power grid failures and disruptions in GPS services. Understanding these processes helps engineers and scientists develop strategies to mitigate the impacts of such storms on our technological infrastructure. Moreover, the study of the magnetospheric (磁层的) environment has implications for space exploration. As humans venture further into space, understanding the magnetospheric (磁层的) conditions around other planets becomes increasingly important. For example, missions to Mars require knowledge of its magnetospheric (磁层的) characteristics to ensure the safety of astronauts and equipment. In addition to its protective role, the magnetospheric (磁层的) region also influences climate patterns on Earth. Some studies suggest that variations in the magnetospheric (磁层的) activity may correlate with changes in global temperatures. Although this area of research is still developing, it highlights the interconnectedness of Earth's systems and the importance of the magnetospheric (磁层的) field in understanding our planet's climate. In conclusion, the magnetospheric (磁层的) environment is a vital aspect of our planet's defense against space weather phenomena, influencing everything from technology to climate. As we continue to explore and understand this complex region, we gain insights that not only enhance our knowledge of Earth but also inform our ventures into the broader universe. The significance of the magnetospheric (磁层的) field cannot be overstated, as it plays a pivotal role in sustaining life on our planet and protecting our technological advancements.

地球被一个称为磁层的保护盾包围。这个区域以磁场和带电粒子的存在为特征，在保护我们的星球免受有害的太阳和宇宙辐射方面发挥着至关重要的作用。术语magnetospheric（磁层的）指的是与这一保护层相关的任何事物。理解magnetospheric（磁层的）环境对于理解我们星球如何与太空天气现象相互作用至关重要。magnetospheric（磁层的）场的一个重要功能是偏转太阳风，太阳风由太阳发出的带电粒子组成。当这些粒子与地球的大气层碰撞时，会导致各种效应，包括极光和卫星通信的干扰。如果没有magnetospheric（磁层的）屏障，我们的星球将暴露在更严酷的环境中，可能使其无法居住。对magnetospheric（磁层的）动态的研究在过去几十年中显著进展。科学家利用卫星和地面观测来研究magnetospheric（磁层的）等离子体和磁场的行为。这项研究不仅对理解地球的环境至关重要，还对研究其他拥有自己magnetospheric（磁层的）特征的天体（如木星和土星）至关重要。太阳风与magnetospheric（磁层的）场之间的相互作用会产生现象，如地磁风暴，这可能对技术和导航系统产生深远影响。例如，在地磁风暴期间，magnetospheric（磁层的）区域的活动增加可能导致电网故障和GPS服务的中断。理解这些过程帮助工程师和科学家制定减轻这些风暴对我们技术基础设施影响的策略。此外，对magnetospheric（磁层的）环境的研究对太空探索也有影响。随着人类向太空更远处探索，了解其他行星的magnetospheric（磁层的）条件变得越来越重要。例如，对火星的任务需要了解其magnetospheric（磁层的）特征，以确保宇航员和设备的安全。除了其保护作用外，magnetospheric（磁层的）区域还影响地球的气候模式。一些研究表明，magnetospheric（磁层的）活动的变化可能与全球温度的变化相关。尽管这一研究领域仍在发展，但它突显了地球系统之间的相互联系，以及magnetospheric（磁层的）场在理解我们星球气候中的重要性。总之，magnetospheric（磁层的）环境是我们星球抵御太空天气现象的重要方面，影响着从技术到气候的方方面面。随着我们继续探索和理解这一复杂区域，我们获得的见解不仅增强了我们对地球的认识，也为我们进入更广阔的宇宙提供了信息。magnetospheric（磁层的）场的重要性不容小觑，因为它在维持我们星球上的生命和保护我们的技术进步方面发挥着关键作用。