time amplitude

简明释义

出没时幅

英英释义

例句

1.Engineers often adjust the time amplitude in their designs to optimize performance.

工程师们常常调整他们设计中的时间幅度 以优化性能。

2.When measuring vibrations, the time amplitude can indicate the severity of the issue.

在测量振动时，时间幅度 可以指示问题的严重性。

3.In signal processing, the concept of time amplitude is crucial for analyzing waveforms.

在信号处理中，时间幅度 的概念对于分析波形至关重要。

4.The visualization of time amplitude helps in understanding the dynamics of the system.

对时间幅度 的可视化有助于理解系统的动态特性。

5.The time amplitude of the audio signal affects how loud the sound appears to the listener.

音频信号的时间幅度 会影响听众对声音的响度感知。

作文

In the world of physics and engineering, the concept of time amplitude plays a crucial role in understanding various phenomena. At its core, time amplitude refers to the measure of how much a signal varies over time. This variation is essential when analyzing waves, vibrations, and other oscillatory systems. To grasp this concept better, let us explore its applications and significance in different fields.One of the primary areas where time amplitude is applied is in the study of sound waves. Sound is produced by vibrations that travel through a medium, such as air or water. The amplitude of these vibrations determines the loudness of the sound we hear. For instance, a loud concert generates high amplitude sound waves, while a whisper produces low amplitude waves. Understanding the time amplitude of sound waves allows audio engineers to manipulate sound quality, ensuring that music and speech are delivered clearly and effectively.Another significant application of time amplitude is in the field of telecommunications. In this rapidly evolving industry, signals must be transmitted over long distances without losing quality. Engineers use time amplitude measurements to optimize signal strength and clarity, enabling smooth communication between devices. For example, when making a phone call, the voice signal is converted into electrical impulses that vary in amplitude over time. By analyzing these variations, engineers can enhance the transmission process, reducing distortion and improving overall call quality.Moreover, time amplitude is critical in the realm of electronics, particularly in the design of circuits and systems. When engineers design oscillators, amplifiers, and other electronic components, they must consider how the amplitude of signals changes with time. This consideration ensures that devices function correctly and efficiently. For instance, in radio transmission, the time amplitude of the carrier wave is modulated to encode information, allowing for the broadcast of music, news, and other content.In addition to its technical applications, the concept of time amplitude also has philosophical implications. It invites us to think about the nature of time and change. Just as we measure the amplitude of waves, we can reflect on the amplitude of our experiences over time. Life is filled with moments of varying intensity—some joyful, some sorrowful, and others mundane. Understanding the time amplitude of our experiences can lead to deeper insights into our personal growth and emotional well-being.In conclusion, the concept of time amplitude is not only fundamental in scientific and engineering contexts but also offers a lens through which we can examine our lives. Whether it is in the study of sound waves, telecommunications, or electronics, time amplitude provides valuable insights that drive innovation and enhance our understanding of the world around us. As we continue to explore the complexities of time and amplitude, we can appreciate the interconnectedness of science, technology, and our everyday experiences.

在物理和工程的世界中，时间幅度的概念在理解各种现象方面起着至关重要的作用。在其核心，时间幅度指的是信号随时间变化的程度。这种变化在分析波动、振动和其他振荡系统时至关重要。为了更好地掌握这个概念，让我们探索它在不同领域的应用和重要性。时间幅度应用的主要领域之一是声音波的研究。声音是通过介质（如空气或水）传播的振动产生的。这些振动的幅度决定了我们听到的声音的响度。例如，嘈杂的音乐会产生高幅度的声波，而耳语则产生低幅度的声波。了解声音波的时间幅度使音频工程师能够操控声音质量，确保音乐和演讲清晰有效地传递。时间幅度的另一个重要应用是在电信领域。在这个快速发展的行业中，信号必须在长距离内传输而不失去质量。工程师使用时间幅度测量来优化信号强度和清晰度，使设备之间的通信顺畅。例如，在打电话时，声音信号被转换为随时间变化的电信号脉冲。通过分析这些变化，工程师可以增强传输过程，减少失真，提高通话质量。此外，时间幅度在电子学领域也至关重要，特别是在电路和系统设计中。当工程师设计振荡器、放大器和其他电子元件时，他们必须考虑信号的幅度如何随时间变化。这种考虑确保设备正常且高效地运行。例如，在无线电传输中，载波波的时间幅度被调制以编码信息，从而允许广播音乐、新闻和其他内容。除了技术应用外，时间幅度的概念也具有哲学意义。它邀请我们思考时间和变化的本质。正如我们测量波的幅度一样，我们可以反思我们经历的幅度。生活充满了不同强度的时刻——有些快乐，有些悲伤，还有一些平淡。理解我们经历的时间幅度可以带来对个人成长和情感健康的更深刻洞察。总之，时间幅度的概念不仅在科学和工程背景中是基础性的，而且提供了一个透镜，通过它我们可以审视我们的生活。无论是在声音波、电信还是电子学的研究中，时间幅度都提供了推动创新和增强我们对周围世界理解的宝贵见解。当我们继续探索时间和幅度的复杂性时，我们可以欣赏科学、技术和我们日常经历之间的相互联系。