atmospheric wave

简明释义

1. 大气波; 2. 天波; 3. 大气波动;

英英释义

例句

1.The phenomenon of el niño is closely related to atmospheric waves in the Pacific Ocean.

厄尔尼诺现象与太平洋中的大气波密切相关。

2.Scientists observed unusual atmospheric waves during the storm.

科学家在风暴期间观察到异常的大气波。

3.Understanding atmospheric waves can help improve climate models.

理解大气波可以帮助改善气候模型。

4.Meteorologists study the behavior of atmospheric waves to predict weather patterns.

气象学家研究大气波的行为以预测天气模式。

5.The research focused on how atmospheric waves influence ocean currents.

研究集中在大气波如何影响海洋洋流。

作文

The Earth is enveloped by a complex and dynamic atmosphere that plays a crucial role in shaping our climate and weather patterns. Within this intricate system, various phenomena occur, one of which is the atmospheric wave (大气波). These waves are not merely abstract concepts; they are fundamental to understanding how energy and momentum are transferred throughout the atmosphere. Atmospheric waves can be categorized into different types based on their characteristics and the scales at which they operate. For instance, there are gravity waves, which occur when air parcels are displaced vertically and then return to their original position, resulting in oscillations. Another type is the Rossby wave, which is a large-scale wave pattern caused by the rotation of the Earth and the variation in temperature between the equator and the poles. Both of these examples illustrate the diverse nature of atmospheric waves (大气波) and their significant impact on weather systems.One of the most fascinating aspects of atmospheric waves (大气波) is their ability to influence weather patterns over vast distances. For example, when a strong atmospheric wave (大气波) propagates through the atmosphere, it can lead to the development of high-pressure and low-pressure systems, which are essential drivers of our daily weather. These waves can also interact with other atmospheric phenomena, such as jet streams, leading to the formation of storms or altering precipitation patterns.Moreover, atmospheric waves (大气波) are not limited to just the lower levels of the atmosphere. They can extend into the stratosphere and beyond, affecting the overall circulation patterns of the atmosphere. This vertical propagation of waves is crucial for the distribution of heat and moisture, which ultimately influences climate conditions. Understanding these dynamics is vital for meteorologists and climate scientists as they work to predict weather changes and assess long-term climate trends.In addition to their meteorological significance, atmospheric waves (大气波) also have implications for aviation and space exploration. Pilots must be aware of potential turbulence caused by these waves, especially when flying at high altitudes where the effects can be more pronounced. Similarly, satellite operators must consider the impact of atmospheric waves (大气波) on signal transmission and data collection, as disturbances in the atmosphere can affect communication technologies.In conclusion, atmospheric waves (大气波) are a fundamental aspect of our atmosphere that influences weather, climate, and even human activities. By studying these waves, scientists gain valuable insights into the complex interactions that govern our planet's weather systems. As we continue to explore the intricacies of the atmosphere, the role of atmospheric waves (大气波) will undoubtedly remain a key area of research, helping us to better understand and predict the ever-changing nature of our environment.

地球被一个复杂而动态的大气层包围，这在塑造我们的气候和天气模式方面发挥着至关重要的作用。在这个复杂的系统中，发生了各种现象，其中之一就是大气波（atmospheric wave）。这些波动不仅仅是抽象的概念；它们对于理解能量和动量如何在大气中传播至关重要。 大气波可以根据其特征和操作的尺度分为不同类型。例如，重力波发生在空气团垂直位移后返回原位时，从而导致振荡。另一种类型是罗斯贝波，这是由于地球的自转和赤道与极地之间的温度变化引起的大尺度波动模式。这两个例子都说明了大气波（atmospheric wave）的多样性及其对天气系统的重要影响。大气波（atmospheric wave）最迷人的方面之一是它们能够影响遥远地区的天气模式。例如，当强烈的大气波（atmospheric wave）在大气中传播时，它可以导致高压和低压系统的发展，这些系统是我们日常天气的基本驱动因素。这些波动还可以与其他大气现象相互作用，例如喷流，导致风暴的形成或改变降水模式。此外，大气波（atmospheric wave）并不局限于大气的下层。它们可以延伸到平流层及更高的地方，影响大气的整体环流模式。这些波的垂直传播对于热量和湿气的分布至关重要，最终影响气候条件。理解这些动态对气象学家和气候科学家至关重要，因为他们努力预测天气变化并评估长期气候趋势。除了气象学意义外，大气波（atmospheric wave）对航空和太空探索也有影响。飞行员必须意识到这些波动可能造成的颠簸，尤其是在高空飞行时，影响可能更为明显。同样，卫星操作员必须考虑大气波（atmospheric wave）对信号传输和数据收集的影响，因为大气中的干扰可能影响通信技术。总之，大气波（atmospheric wave）是我们大气的一个基本方面，影响着天气、气候甚至人类活动。通过研究这些波动，科学家获得了关于支配我们星球天气系统的复杂相互作用的宝贵见解。随着我们继续探索大气的复杂性，大气波（atmospheric wave）的作用无疑将仍然是一个关键的研究领域，帮助我们更好地理解和预测我们环境的不断变化。