transmitted wave

简明释义

透射波

英英释义

例句

1.In telecommunications, the quality of the signal is affected by the transmitted wave during transmission.

在电信中，信号的质量受到传输过程中传输波的影响。

2.Researchers are studying how different materials affect the speed of a transmitted wave.

研究人员正在研究不同材料如何影响传输波的速度。

3.The transmitted wave can be weakened by obstacles in its path.

路径中的障碍物可能会削弱传输波。

4.The transmitted wave was detected using a specialized receiver.

使用专门的接收器检测到传输波。

5.The engineer analyzed the transmitted wave to determine its frequency and amplitude.

工程师分析了传输波以确定其频率和振幅。

作文

In the realm of physics and engineering, the concept of a transmitted wave plays a crucial role in understanding how energy and information travel through different mediums. A transmitted wave can be defined as a disturbance that propagates through space and matter, carrying energy from one point to another without the need for physical transfer of material. This phenomenon is evident in various forms, such as sound waves, light waves, and electromagnetic waves, each having unique properties and behaviors.To illustrate this concept further, let’s consider sound waves. When a person speaks, their vocal cords create vibrations in the air, resulting in a series of compressions and rarefactions. These pressure variations travel through the air as a transmitted wave, allowing the sound to reach a listener's ears. The medium, in this case, is air, which facilitates the movement of the wave. Without this medium, the sound would not be able to travel, demonstrating the importance of transmission in wave mechanics.Similarly, light waves are another example of transmitted waves. When sunlight passes through the atmosphere, it travels in the form of electromagnetic radiation. Unlike sound waves, light does not require a medium to travel; it can move through the vacuum of space. This characteristic is what allows us to see the sun and other celestial bodies, despite the vast distances separating them from Earth. The speed at which these transmitted waves travel also varies depending on the medium they pass through, which is why we observe phenomena such as refraction when light enters water.In telecommunications, the concept of transmitted waves is essential for the transmission of data. Radio waves, for instance, are a type of electromagnetic wave used to transmit information over long distances. When you listen to the radio, your device captures these transmitted waves and converts them into sound, allowing you to enjoy music or news broadcasts. The ability to effectively transmit waves has revolutionized communication, making it possible to connect people across the globe instantly.Understanding transmitted waves also has practical applications in medical technology. Ultrasound, for example, utilizes high-frequency sound waves that are transmitted into the body to create images of internal organs. The waves reflect off different tissues and are captured by a machine, producing a visual representation that aids in diagnosis. This non-invasive technique showcases the significance of transmitted waves in advancing healthcare and improving patient outcomes.In conclusion, the concept of a transmitted wave is fundamental to various scientific disciplines and everyday technologies. From sound and light to telecommunications and medical imaging, understanding how these waves propagate and interact with different mediums is vital for harnessing their potential. As we continue to explore the properties and applications of transmitted waves, we unlock new possibilities for innovation and discovery, shaping the future of science and technology.

在物理学和工程学领域，transmitted wave的概念在理解能量和信息如何通过不同媒介传播中起着至关重要的作用。transmitted wave可以定义为一种扰动，它在空间和物质中传播，携带能量从一个点传递到另一个点，而无需物质的实际转移。这种现象在多种形式中显而易见，例如声波、光波和电磁波，每种波都有独特的性质和行为。为了进一步说明这一概念，让我们考虑声波。当一个人说话时，他们的声带在空气中产生振动，导致一系列的压缩和稀疏。这些压力变化作为transmitted wave在空气中传播，使声音能够到达听者的耳朵。在这种情况下，媒介是空气，它促进了波的运动。如果没有这种媒介，声音将无法传播，这展示了波动力学中传输的重要性。同样，光波是另一种transmitted wave的例子。当阳光穿过大气层时，它以电磁辐射的形式传播。与声波不同，光不需要媒介来传播；它可以通过真空中的空间移动。这一特性使我们能够看到太阳和其他天体，尽管它们与地球之间有着巨大的距离。这些transmitted wave传播的速度也因其通过的媒介而异，这就是为什么我们观察到光在进入水时发生折射现象。在电信中，transmitted wave的概念对数据的传输至关重要。例如，广播波是一种用于远距离传输信息的电磁波。当你收听收音机时，你的设备捕捉到这些transmitted wave并将其转换成声音，使你能够享受音乐或新闻广播。有效地传输波的能力彻底改变了通信，使人们能够瞬间连接全球。理解transmitted wave在医疗技术中也具有实际应用。超声波就是一个例子，它利用高频声波被transmitted到体内以创建内部器官的图像。这些波反射不同的组织并被机器捕捉，生成有助于诊断的视觉表现。这种非侵入性技术展示了transmitted wave在推动医疗保健和改善患者结果方面的重要性。总之，transmitted wave的概念是各种科学学科和日常技术的基础。从声音和光到电信和医学成像，理解这些波如何传播和与不同媒介相互作用对于利用它们的潜力至关重要。随着我们继续探索transmitted wave的性质和应用，我们开启了创新和发现的新可能性，塑造科学和技术的未来。