pulse wave

简明释义

脉波脉冲波

英英释义

例句

1.The doctor used an ultrasound to visualize the pulse wave 脉冲波 patterns in the patient's arteries.

医生使用超声波检查可视化患者动脉中的脉冲波 pulse wave模式。

2.The engineer designed a new sensor that detects pulse wave 脉冲波 frequencies for better data accuracy.

工程师设计了一种新传感器，用于检测脉冲波 pulse wave频率，以提高数据准确性。

3.The pulse wave 脉冲波 technology is used in modern medical devices for monitoring heart conditions.

现代医疗设备中使用脉冲波 pulse wave技术来监测心脏病状。

4.In physics, the concept of pulse wave 脉冲波 is essential for understanding wave mechanics.

在物理学中，脉冲波 pulse wave的概念对于理解波动力学至关重要。

5.Researchers studied the effects of pulse wave 脉冲波 propagation on different materials.

研究人员研究了脉冲波 pulse wave在不同材料上的传播效果。

作文

In the field of physics and engineering, understanding various types of waves is essential. One such type is the pulse wave, which refers to a waveform that consists of a single, non-repeating change in amplitude. This can be contrasted with continuous waves, which oscillate indefinitely. The significance of the pulse wave lies in its applications across multiple disciplines, including telecommunications, medicine, and even music. To begin with, the pulse wave can be visualized as a sudden spike in energy that travels through a medium. For instance, when you drop a stone into a still pond, the ripples that form are akin to a continuous wave. However, if you were to strike a drum, the sound produced is more representative of a pulse wave. This immediate burst of sound travels through the air, creating a distinct auditory experience that is different from the steady hum of a continuous tone.In telecommunications, pulse waves are crucial for encoding information. Digital signals, which are composed of binary data (0s and 1s), are transmitted using pulse waves. Each pulse represents a change in state, allowing for the efficient transfer of data over long distances. The clarity and integrity of these pulse waves are vital for effective communication, especially in modern technologies such as fiber optics and wireless networks.Similarly, in the medical field, pulse waves play an important role in diagnostics and treatment. For example, ultrasound technology utilizes pulse waves to create images of internal body structures. By emitting high-frequency sound pulses and analyzing the returning echoes, healthcare professionals can visualize organs and detect abnormalities. This non-invasive technique has revolutionized prenatal care and many other medical examinations.Moreover, understanding pulse waves extends to the realm of music. Musicians often manipulate sound waves to create various effects, and pulse waves are a fundamental aspect of sound synthesis. Electronic instruments can generate pulse waves that produce unique tones and textures, contributing to the diverse landscape of modern music. The ability to control the frequency and amplitude of these pulse waves allows artists to express their creativity in innovative ways.In conclusion, the concept of pulse waves is multifaceted, impacting numerous fields from physics to art. Whether it’s through facilitating communication, advancing medical technology, or enhancing musical composition, pulse waves demonstrate the interconnectedness of science and creativity. As we continue to explore the properties and applications of pulse waves, we unlock new possibilities that can lead to advancements in technology and a deeper understanding of the world around us.

在物理和工程领域，理解各种波的类型至关重要。其中一种类型是脉冲波，它指的是由单一、非重复的振幅变化组成的波形。这与连续波形成对比，后者无限期地振荡。脉冲波的重要性在于它在电信、医学甚至音乐等多个学科中的应用。首先，可以将脉冲波视为通过介质传播的能量突然激增。例如，当你把石头扔进静止的水塘时，形成的涟漪类似于连续波。然而，如果你敲击鼓，产生的声音更能代表脉冲波。这种瞬间的声音波通过空气传播，创造出一种独特的听觉体验，这与持续音的稳定嗡鸣不同。在电信中，脉冲波对编码信息至关重要。数字信号由二进制数据（0和1）组成，使用脉冲波进行传输。每个脉冲代表状态的变化，从而高效地在长距离上传输数据。这些脉冲波的清晰度和完整性对于有效通信至关重要，尤其是在现代技术如光纤和无线网络中。同样，在医学领域，脉冲波在诊断和治疗中发挥着重要作用。例如，超声技术利用脉冲波来创建内部身体结构的图像。通过发射高频声波并分析返回的回声，医疗专业人员可以可视化器官并检测异常。这种非侵入性技术彻底改变了产前护理和许多其他医学检查。此外，理解脉冲波还扩展到音乐领域。音乐家们经常操纵声波以创造各种效果，而脉冲波是声音合成的基本方面。电子乐器可以生成脉冲波，产生独特的音调和音色，为现代音乐的多样化景观做出贡献。控制这些脉冲波的频率和振幅的能力使艺术家能够以创新方式表达他们的创造力。总之，脉冲波的概念是多面的，影响着从物理到艺术的众多领域。无论是通过促进通信、推动医疗技术，还是增强音乐创作，脉冲波展示了科学与创造力之间的相互联系。随着我们继续探索脉冲波的性质和应用，我们解锁了新的可能性，这可能导致技术的进步以及对周围世界更深入的理解。