steep wave front

简明释义

陡波前

英英释义

例句

1.As the ship sailed into the harbor, it encountered a steep wave front 陡峭波前 that caused it to rock violently.

当船驶入港口时，遇到了一个陡峭波前，导致它剧烈摇晃。

2.The oceanographer noted that the storm created a steep wave front 陡峭波前 that was dangerous for small boats.

海洋学家注意到风暴产生了一个陡峭波前，这对小船来说是危险的。

3.The engineers designed the breakwater to withstand the impact of a steep wave front 陡峭波前 generated by tsunamis.

工程师们设计了防波堤，以承受由海啸产生的陡峭波前的冲击。

4.During the surfing competition, the participants were excited by the steep wave front 陡峭波前 that formed due to high winds.

在冲浪比赛中，参与者因强风形成的陡峭波前而感到兴奋。

5.The scientists studied the effects of a steep wave front 陡峭波前 on coastal erosion patterns.

科学家们研究了陡峭波前对海岸侵蚀模式的影响。

作文

In the study of physics and engineering, understanding wave phenomena is crucial for various applications, from telecommunications to oceanography. One important concept within this field is the notion of a steep wave front, which refers to a wave that has a rapid change in amplitude over a short distance. This characteristic can be observed in several types of waves, including sound waves, electromagnetic waves, and water waves. The steepness of a wave front can significantly affect how energy is transmitted through different mediums. To illustrate this concept, consider the example of a sound wave produced by a loudspeaker. When the speaker emits sound, it creates a series of pressure changes in the air. If the sound intensity is very high, the resulting wave front can become steep, meaning that there is a sharp transition between areas of high and low pressure. This steepness can lead to phenomena such as shock waves, which occur when the wave front exceeds the speed of sound in a given medium. Shock waves are often associated with explosions or supersonic aircraft, where the steep wave front can create significant changes in pressure and temperature, leading to dramatic effects on the surrounding environment.Another example can be found in the study of ocean waves. When wind blows across the surface of the sea, it generates waves that can vary in height and steepness. A steep wave front in this context refers to waves that rise sharply and then fall off quickly, often leading to dangerous conditions for ships and swimmers. These steep waves can cause increased erosion along coastlines and can also impact marine life, as the force of the breaking waves alters habitats.The implications of steep wave fronts extend beyond natural phenomena; they are also relevant in technology. For instance, in the field of telecommunications, signals are transmitted using electromagnetic waves. A steep wave front in this case can indicate a strong signal with minimal distortion, which is critical for clear communication. Engineers strive to maintain the steepness of wave fronts in signal transmission to ensure that data is sent efficiently and accurately.In conclusion, the concept of a steep wave front is vital in understanding various physical processes and their applications. Whether in the context of sound waves, ocean waves, or electromagnetic signals, the steepness of a wave front plays a crucial role in determining how energy is transferred and how systems respond to these waves. As we continue to explore the complexities of wave dynamics, the significance of steep wave fronts will undoubtedly remain a key area of focus, influencing both scientific research and practical applications across multiple disciplines.

在物理和工程的研究中，理解波现象对于各种应用至关重要，从电信到海洋学。在这个领域内，一个重要的概念是“steep wave front”的概念，这指的是在短距离内幅度变化迅速的波。这种特征可以在多种类型的波中观察到，包括声波、电磁波和水波。波前的陡峭程度会显著影响能量在不同介质中的传输方式。为了说明这一概念，可以考虑一个由扬声器产生的声波的例子。当扬声器发出声音时，它在空气中产生了一系列压力变化。如果声音强度非常高，所产生的波前可能会变得steep，这意味着高压和低压区域之间存在急剧的过渡。这种陡峭性可以导致诸如冲击波等现象，当波前超过给定介质中的声速时就会发生冲击波。冲击波通常与爆炸或超音速飞机相关，其中steep wave front可以造成周围环境中压力和温度的显著变化，从而导致剧烈的效果。另一个例子可以在海浪的研究中找到。当风吹过海面时，会产生高度和陡峭度各异的波。在这种情况下，steep wave front指的是迅速上升然后快速下降的波，往往会导致船只和游泳者的危险。这些陡峭的波可能会导致沿海岸线的侵蚀加剧，同时也会影响海洋生物，因为破浪的力量改变了栖息地。steep wave fronts的影响不仅限于自然现象；它们在技术中同样相关。例如，在电信领域，信号通过电磁波进行传输。在这种情况下，steep wave front可以表明信号强度高且失真最小，这对清晰的通信至关重要。工程师努力保持信号传输中波前的陡峭性，以确保数据高效准确地发送。总之，“steep wave front”的概念在理解各种物理过程及其应用中至关重要。无论是在声波、海浪还是电磁信号的背景下，波前的陡峭性在决定能量如何传输以及系统如何响应这些波方面发挥着关键作用。随着我们继续探索波动态的复杂性，steep wave fronts的重要性无疑将继续成为一个重点领域，影响多个学科的科学研究和实际应用。