diphase

简明释义

英[ˈdaɪfeɪz]美[ˈdaɪˌfez]

adj. [电] 双相的；复相的

英英释义

单词用法

同义词

反义词

例句

1.The paper discusses the principle of porosity prediction with seismic data based on the propagation theory of seismic wave in diphase medium.

基于双相介质中地震波传播理论，论述了地震孔隙度预测原理。

2.The paper discusses the principle of porosity prediction with seismic data based on the propagation theory of seismic wave in diphase medium.

基于双相介质中地震波传播理论，论述了地震孔隙度预测原理。

3.The new technology utilizes a diphase system to enhance signal transmission.

新技术利用diphase系统来增强信号传输。

4.In our experiments, we observed a significant improvement in performance with the diphase approach.

在我们的实验中，我们观察到使用diphase方法性能显著提高。

5.The diphase modulation technique is essential for modern communication systems.

diphase调制技术对现代通信系统至关重要。

6.Engineers are exploring diphase methods to reduce energy consumption in devices.

工程师们正在探索diphase方法以减少设备的能耗。

7.Our research indicates that diphase circuits can operate more efficiently under certain conditions.

我们的研究表明，diphase电路在特定条件下可以更高效地运行。

作文

In the realm of physics, particularly in the study of wave phenomena, the term diphase refers to a situation where two waves are in a state of phase difference. This concept is crucial for understanding various applications in technology and science. When two waves are said to be diphase, they do not reach their peaks and troughs at the same time, leading to interference patterns that can either amplify or diminish the overall wave effect. To illustrate this concept, consider the example of sound waves produced by musical instruments. When two instruments play the same note but are slightly out of sync with each other, the resulting sound can be richer or more complex than if they were perfectly in phase. This phenomenon occurs because the diphase relationship between the waves creates areas of constructive and destructive interference. Constructive interference occurs when the peaks of both waves align, resulting in a louder sound, while destructive interference happens when the peak of one wave aligns with the trough of another, leading to a softer sound. The significance of diphase extends beyond music; it is also vital in communication technologies. For instance, in radio transmission, signals that are diphase can be used to encode information more efficiently. By manipulating the phase of the transmitted waves, engineers can increase the amount of data sent over the same frequency, thus improving the overall performance of communication systems. Moreover, the concept of diphase is not limited to sound waves. It also applies to light waves, where phase differences can lead to various optical effects. In optics, when light waves are diphase, they can create beautiful patterns of color and light through phenomena such as diffraction and interference. This principle is utilized in many modern technologies, including holography and advanced imaging systems. In summary, the idea of diphase is an essential concept in understanding wave behavior in various scientific fields. Whether it is in music, communication, or optics, the implications of phase differences are profound and far-reaching. As we continue to explore the intricacies of wave phenomena, the role of diphase will undoubtedly remain a key area of interest for researchers and professionals alike. Understanding this concept not only enhances our comprehension of physical laws but also opens doors to innovative applications that can transform our technological landscape.

在物理学的领域，特别是在波动现象的研究中，术语diphase指的是两种波处于相位差状态的情况。这个概念对于理解技术和科学中的各种应用至关重要。当两种波被称为diphase时，它们不会同时达到峰值和谷值，从而导致干涉图样，这些图样可以增强或减弱整体波的效果。 为了说明这一概念，考虑一下乐器产生的声音波的例子。当两种乐器演奏同一个音符但稍微不同步时，最终的声音可能比它们完全同步时更丰富或更复杂。这种现象发生是因为波之间的diphase关系创造了建设性和破坏性干涉区域。当两种波的峰对齐时，会发生建设性干涉，导致声音更响亮；而当一波的峰与另一波的谷对齐时，则会发生破坏性干涉，导致声音变得更柔和。 diphase的重要性不仅限于音乐；它在通信技术中也至关重要。例如，在无线电传输中，diphase信号可以用来更有效地编码信息。通过操控传输波的相位，工程师可以在同一频率上增加发送的数据量，从而提高通信系统的整体性能。 此外，diphase的概念不仅限于声波。它也适用于光波，其中相位差可以导致各种光学效应。在光学中，当光波处于diphase时，可以通过衍射和干涉等现象创造出美丽的颜色和光的图案。这个原理被广泛应用于许多现代技术中，包括全息摄影和先进成像系统。 总之，diphase的概念是理解各个科学领域波动行为的重要概念。无论是在音乐、通信还是光学中，相位差的影响都是深远且广泛的。随着我们继续探索波动现象的复杂性，diphase的角色无疑将始终是研究人员和专业人士关注的关键领域。理解这一概念不仅增强了我们对物理法则的理解，还为创新应用打开了大门，这些应用可以改变我们的技术格局。