amplitude peak

简明释义

最大幅度

英英释义

例句

1.The audio engineer adjusted the levels to avoid exceeding the amplitude peak 幅度峰值 during the recording.

音频工程师调整了音量，以避免在录音过程中超过幅度峰值。

2.The amplitude peak 幅度峰值 was recorded at 120 dB, which is considered very loud.

记录到的幅度峰值为120分贝，被认为是非常响的。

3.Monitoring the amplitude peak 幅度峰值 is crucial for ensuring sound quality in live performances.

监控幅度峰值对于确保现场表演的音质至关重要。

4.In the graph, the amplitude peak 幅度峰值 indicates the maximum signal strength.

在图表中，幅度峰值表示信号强度的最大值。

5.To prevent distortion, the system must be calibrated to handle the amplitude peak 幅度峰值 effectively.

为了防止失真，系统必须有效地校准以处理幅度峰值。

作文

In the realm of physics and engineering, understanding various concepts is crucial for analyzing systems and phenomena. One such important concept is the amplitude peak, which plays a significant role in wave mechanics and signal processing. The term amplitude peak refers to the maximum value of a wave's amplitude, representing the highest point in the oscillation cycle. This peak is essential for determining the energy and intensity of waves, whether they are sound waves, light waves, or electromagnetic waves.To illustrate the significance of the amplitude peak, consider the example of sound waves. When a musician plays a note on an instrument, the sound produced travels through the air in the form of waves. The louder the note, the higher the amplitude peak of the sound wave. This means that the energy carried by the wave is greater, resulting in a more intense sound. Conversely, a softer note will have a lower amplitude peak, indicating less energy and a quieter sound. Understanding this relationship helps audio engineers optimize sound quality in recordings and live performances.In addition to sound, the concept of amplitude peak is also vital in the field of communications. When transmitting data over radio waves, the amplitude peak can affect the clarity and strength of the signal. A strong signal with a high amplitude peak can travel longer distances without degradation, ensuring that the information reaches its intended destination clearly. On the other hand, a weak signal with a low amplitude peak may lead to interference and loss of data, which is particularly problematic in critical communication systems.Moreover, the amplitude peak is not limited to just sound and radio waves; it is also a key factor in visual representations of waves, such as light. In optics, the brightness of a light source is determined by the amplitude peak of the electromagnetic waves it emits. Higher peaks correspond to brighter light, while lower peaks result in dimmer illumination. This principle is fundamental in designing lighting systems for various applications, from stage performances to street lighting.Furthermore, in the context of engineering, understanding the amplitude peak is essential when analyzing vibrations in structures. Engineers must ensure that buildings and bridges can withstand oscillations caused by external forces, such as wind or earthquakes. By studying the amplitude peak of these vibrations, engineers can design structures that maintain stability and safety, preventing potential disasters.In conclusion, the concept of amplitude peak is integral to various fields, including music, communications, optics, and engineering. By recognizing the importance of the amplitude peak, professionals can make informed decisions that enhance the quality and safety of their work. Whether it is optimizing sound in a concert hall, ensuring clear communication signals, or designing resilient structures, the amplitude peak serves as a critical parameter that influences outcomes across diverse applications. Understanding this concept not only enriches our knowledge of wave behavior but also empowers us to harness the power of waves in innovative ways.

在物理和工程领域，理解各种概念对于分析系统和现象至关重要。其中一个重要的概念是幅度峰值，它在波动力学和信号处理中起着重要作用。术语幅度峰值指的是波的幅度的最大值，代表振荡周期中的最高点。这个峰值对于确定波的能量和强度是必不可少的，无论是声波、光波还是电磁波。为了说明幅度峰值的重要性，考虑一下声波的例子。当音乐家在乐器上演奏音符时，产生的声音通过空气以波的形式传播。音符越响，声波的幅度峰值就越高。这意味着波携带的能量更大，导致声音更强烈。相反，较柔和的音符将具有较低的幅度峰值，表示能量较少，声音较安静。理解这种关系有助于音频工程师优化录音和现场表演的音质。除了声音之外，幅度峰值的概念在通信领域也至关重要。在通过无线电波传输数据时，幅度峰值可以影响信号的清晰度和强度。具有高幅度峰值的强信号可以在不降解的情况下传输更长的距离，确保信息清晰地到达预期目的地。另一方面，具有低幅度峰值的弱信号可能会导致干扰和数据丢失，这在关键通信系统中尤其成问题。此外，幅度峰值不仅限于声音和无线电波；它也是光波等波的视觉表现中的关键因素。在光学中，光源的亮度由其发出的电磁波的幅度峰值决定。较高的峰值对应于更明亮的光，而较低的峰值则导致光线较暗。这个原理在各种应用中设计照明系统是基础，从舞台表演到街道照明。此外，在工程背景下，理解幅度峰值对于分析结构中的振动至关重要。工程师必须确保建筑物和桥梁能够承受外力（如风或地震）引起的振动。通过研究这些振动的幅度峰值，工程师可以设计出保持稳定和安全的结构，防止潜在的灾难。总之，幅度峰值的概念在音乐、通信、光学和工程等多个领域中是不可或缺的。通过认识到幅度峰值的重要性，专业人士可以做出明智的决策，从而提高他们工作的质量和安全性。无论是优化音乐厅的声音、确保通信信号的清晰，还是设计抗震的结构，幅度峰值都是影响各类应用结果的关键参数。理解这一概念不仅丰富了我们对波动行为的知识，还使我们能够以创新的方式利用波的力量。