combination interference

简明释义

混合干扰

英英释义

例句

1.Researchers are investigating how combination interference 组合干扰 impacts audio quality in sound systems.

研究人员正在调查 组合干扰 combination interference 如何影响音响系统中的音质。

2.The study revealed that combination interference 组合干扰 can significantly affect the results of multi-signal processing.

研究表明，组合干扰 combination interference 会显著影响多信号处理的结果。

3.The phenomenon of combination interference 组合干扰 often complicates the analysis of complex waveforms.

组合干扰 combination interference 的现象常常使复杂波形的分析变得复杂。

4.In telecommunications, combination interference 组合干扰 occurs when multiple signals overlap and distort each other.

在电信中，组合干扰 combination interference 发生在多个信号重叠并相互扭曲时。

5.Engineers must consider combination interference 组合干扰 when designing circuits to ensure optimal performance.

工程师在设计电路时必须考虑 组合干扰 combination interference 以确保最佳性能。

作文

The concept of combination interference is crucial in various fields, particularly in physics and engineering. It refers to the phenomenon where two or more waves interact with each other, leading to a resultant wave that can be either amplified or diminished. This principle is not only significant in understanding sound and light waves but also plays an essential role in modern technology, such as telecommunications and audio engineering.In the realm of acoustics, combination interference occurs when sound waves from different sources overlap. When two sound waves meet, they can either constructively interfere, resulting in a louder sound, or destructively interfere, leading to a quieter sound or even silence. For instance, musicians often experience this in ensemble settings where harmonies can either blend beautifully or clash due to phase differences in their sound waves. Understanding how to manage combination interference allows musicians to create a more harmonious sound.Similarly, in the field of optics, combination interference is observed when light waves overlap. This is the principle behind phenomena such as rainbows and the colorful patterns seen on soap bubbles. When light waves combine, they can produce varying colors based on their wavelengths and the angles at which they intersect. This interplay of light can be harnessed in technologies like lasers and fiber optics, which rely on precise control of wave interactions.In telecommunications, combination interference is a critical consideration. When multiple signals are transmitted simultaneously, they can interfere with one another, causing distortion and loss of information. Engineers work diligently to minimize this interference by employing various techniques, such as frequency division multiplexing, which separates signals into different frequency bands to avoid overlap. By understanding the principles of combination interference, they can enhance the quality and reliability of communication systems.Moreover, combination interference is not limited to physical waves; it can also be applied to other domains, such as psychology and decision-making. For example, when individuals are presented with multiple choices, the way these options interact can influence their final decision. This is akin to interference in that certain choices may overshadow others, leading to a biased outcome. Recognizing this effect can help individuals make more informed decisions by considering how different factors might interact.In conclusion, the understanding of combination interference extends beyond the boundaries of physics and engineering. It encompasses various aspects of life, influencing everything from music and art to technology and decision-making. As we continue to explore and apply this concept, its importance will undoubtedly grow, paving the way for new innovations and insights across multiple disciplines. By mastering the principles behind combination interference, we can better appreciate the complexity of interactions in our world and harness them for future advancements.

组合干涉的概念在多个领域中至关重要，特别是在物理学和工程学中。它指的是两个或多个波相互作用的现象，导致结果波的放大或减弱。这一原理不仅在理解声波和光波中具有重要意义，而且在现代技术中也发挥着至关重要的作用，例如电信和音频工程。在声学领域，组合干涉发生在来自不同源的声波重叠时。当两种声波相遇时，它们可以相互增强，从而产生更响亮的声音，或者相互抵消，导致声音变得更安静甚至沉默。例如，音乐家在合奏时常常会体验到这种现象，因为和声可能会美妙地融合，也可能由于声波的相位差而冲突。理解如何管理组合干涉使音乐家能够创造出更和谐的声音。同样，在光学领域，组合干涉在光波重叠时被观察到。这是彩虹和肥皂泡上看到的五彩斑斓图案背后的原理。当光波结合时，它们可以根据波长和交汇角度产生不同的颜色。这种光的相互作用可以在激光和光纤等技术中加以利用，这些技术依赖于对波相互作用的精确控制。在电信领域，组合干涉是一个关键考虑因素。当多个信号同时传输时，它们可能会相互干扰，导致失真和信息丢失。工程师们努力通过采用各种技术来最小化这种干扰，例如频分复用，它将信号分离到不同的频带中，以避免重叠。通过理解组合干涉的原理，他们可以提高通信系统的质量和可靠性。此外，组合干涉并不仅限于物理波，它还可以应用于其他领域，例如心理学和决策制定。例如，当个人面临多个选择时，这些选项之间的相互作用可能会影响他们的最终决定。这类似于干涉，因为某些选择可能会掩盖其他选择，从而导致偏见的结果。认识到这种效应可以帮助个人通过考虑不同因素之间的相互作用来做出更明智的决定。总之，理解组合干涉的概念超越了物理学和工程学的界限。它涵盖了生活的各个方面，影响着从音乐和艺术到技术和决策的方方面面。随着我们继续探索和应用这一概念，其重要性无疑会增长，为多个学科的新创新和见解铺平道路。通过掌握组合干涉背后的原理，我们可以更好地欣赏我们世界中相互作用的复杂性，并利用这些互动促进未来的进步。