interrupted continuous waves

简明释义

断续等幅波

英英释义

例句

1.The audio engineer had to fix the interrupted continuous waves to improve sound quality in the recording.

音频工程师必须修复中断的连续波以改善录音的音质。

2.In telecommunications, the signal can suffer from interrupted continuous waves that disrupt communication.

在电信中，信号可能会受到中断的连续波的影响，从而干扰通信。

3.During the experiment, we observed interrupted continuous waves causing unusual patterns in the data.

在实验过程中，我们观察到中断的连续波导致数据出现异常模式。

4.The radar system malfunctioned due to interrupted continuous waves affecting its performance.

由于中断的连续波影响其性能，雷达系统发生故障。

5.The scientist studied the effects of interrupted continuous waves on marine life in the laboratory.

科学家在实验室研究了中断的连续波对海洋生物的影响。

作文

In the realm of physics and engineering, the concept of waves plays a crucial role in understanding various phenomena. One interesting aspect of wave behavior is the idea of interrupted continuous waves, which can be observed in many fields such as telecommunications, acoustics, and even in the study of ocean waves. To grasp the significance of interrupted continuous waves, it is essential to break down the term and explore its implications in different contexts.Firstly, let’s define what we mean by continuous waves. Continuous waves are those that propagate through a medium without interruption, maintaining a constant amplitude and frequency. They are often represented mathematically as sine or cosine functions, illustrating their smooth and regular oscillations. However, when we introduce the term 'interrupted,' we imply that these waves experience some form of disruption or modulation.The phenomenon of interrupted continuous waves can be seen in various applications. For instance, in telecommunications, signals are transmitted as continuous waves. However, due to limitations in bandwidth and the need for efficient data transmission, these waves are often interrupted or modulated to carry information. This modulation can take place in several ways, such as amplitude modulation (AM) or frequency modulation (FM), where the characteristics of the wave are altered to encode data.Acoustics provides another example of interrupted continuous waves. When a musician plays a note on an instrument, the sound produced is typically a continuous wave. However, when the musician stops playing or alters the pressure on the instrument, the sound wave becomes interrupted. This interruption creates a rich tapestry of sound, as the waves interact with the environment and each other, leading to complex auditory experiences. The study of these interrupted waves is crucial for understanding sound quality and resonance in music.In the natural world, ocean waves also exhibit characteristics of interrupted continuous waves. As waves travel across the sea, they can be interrupted by obstacles such as rocks or by varying wind conditions. These interruptions lead to changes in wave patterns, creating a dynamic and ever-changing seascape. Understanding how these interruptions affect wave behavior is important for navigation, coastal management, and environmental studies.Moreover, the concept of interrupted continuous waves extends beyond physical waves into metaphorical realms. In life, we often encounter situations where our plans and routines are interrupted. Just like waves that may lose their continuity, our lives can be filled with unexpected events that change our course. However, these interruptions can lead to new opportunities and growth, much like how interrupted waves can create beautiful and unique patterns in nature.In conclusion, the term interrupted continuous waves encapsulates a fascinating interplay between continuity and disruption. Whether in technology, music, nature, or life itself, understanding this concept allows us to appreciate the complexity and beauty of wave behavior. By studying how continuous waves can be interrupted, we gain insights into the dynamics of various systems and learn to navigate the challenges and opportunities that arise from these interruptions. Ultimately, the exploration of interrupted continuous waves reveals the intricate connections between different fields and the importance of adaptability in an ever-changing world.

在物理和工程领域，波的概念在理解各种现象中起着至关重要的作用。波行为的一个有趣方面是“中断连续波”这一概念，它可以在许多领域中观察到，如电信、声学，甚至海洋波浪的研究。要掌握“中断连续波”的重要性，有必要分解这个术语，并探讨它在不同背景下的含义。首先，让我们定义什么是连续波。连续波是指在介质中传播而没有中断、保持恒定幅度和频率的波。它们通常用数学上的正弦或余弦函数表示，展示其平滑而规则的振荡。然而，当我们引入“中断”这个词时，我们暗示这些波经历了一些形式的干扰或调制。“中断连续波”现象可以在多种应用中看到。例如，在电信中，信号作为连续波传输。然而，由于带宽的限制以及高效数据传输的需要，这些波常常被中断或调制以传递信息。这种调制可以通过多种方式进行，例如调幅（AM）或调频（FM），在这些过程中，波的特征被改变以编码数据。声学提供了另一个“中断连续波”的例子。当音乐家在乐器上演奏音符时，产生的声音通常是连续波。然而，当音乐家停止演奏或改变对乐器的压力时，声波就会被中断。这种中断创造出丰富的声音织锦，因为波与环境及彼此相互作用，导致复杂的听觉体验。研究这些中断波的行为对于理解音乐中的音质和共鸣至关重要。在自然界中，海洋波浪也表现出“中断连续波”的特征。当波浪穿越海洋时，它们可能会被岩石等障碍物或变化的风条件中断。这些中断导致波形的变化，创造出动态而不断变化的海景。理解这些中断如何影响波的行为对于导航、海岸管理和环境研究非常重要。此外，“中断连续波”的概念超越了物理波，延伸到隐喻领域。在生活中，我们常常遇到计划和日常活动被打断的情况。就像波浪可能失去其连续性一样，我们的生活也可能充满意想不到的事件，这些事件改变了我们的方向。然而，这些中断可以带来新的机会和成长，就像中断的波浪可以在自然中创造美丽而独特的图案一样。总之，术语“中断连续波”概括了连续性与干扰之间的迷人互动。无论是在技术、音乐、自然还是生活本身，理解这一概念使我们能够欣赏波行为的复杂性和美丽。通过研究连续波如何被中断，我们获得了对各种系统动态的洞察，并学习在这些中断中应对挑战和把握机会。最终，对“中断连续波”的探索揭示了不同领域之间的微妙联系，以及在不断变化的世界中适应的重要性。