excited wave

简明释义

受激波

英英释义

例句

1.As the fireworks lit up the sky, an excited wave swept over the audience.

当烟花照亮天空时，一阵兴奋的浪潮席卷了观众。

2.The children sent an excited wave of laughter through the park as they played.

当孩子们玩耍时，公园里传来了阵阵兴奋的浪潮的笑声。

3.She felt an excited wave of anticipation when she saw the surprise party decorations.

当她看到惊喜派对的装饰时，感到一阵兴奋的浪潮。

4.The crowd erupted in an excited wave as the band took the stage.

当乐队上台时，人群爆发出一阵兴奋的浪潮。

5.He rode the excited wave of adrenaline during the final moments of the game.

在比赛的最后时刻，他感受到了兴奋的浪潮的肾上腺素。

作文

In the realm of physics, waves are a fundamental concept that describes the transfer of energy through various mediums. Among these, the term excited wave refers to a specific type of wave that occurs when particles in a medium are disturbed from their equilibrium position and move to a higher energy state. This phenomenon can be observed in many contexts, from sound waves to electromagnetic waves. Understanding the nature and implications of excited wave phenomena is crucial for various scientific and engineering applications.One of the most common examples of an excited wave is seen in musical instruments. When a string on a guitar is plucked, it vibrates and creates sound waves. The initial plucking of the string causes it to move away from its resting position, creating an excited wave that travels through the air, eventually reaching our ears. This process highlights how energy can be transferred through vibrations, leading to the perception of sound.In addition to music, excited waves also play a vital role in the field of telecommunications. When we send signals over long distances, such as through radio waves or fiber optics, we are essentially manipulating excited waves. These waves carry information by varying their amplitude and frequency, allowing us to communicate effectively across vast distances. The ability to understand and harness excited waves has revolutionized how we connect with one another, making instant communication possible.Moreover, in the study of quantum mechanics, excited waves take on an even more intriguing dimension. Particles can exist in different energy states, and when they absorb energy, they transition to an excited state. This concept is crucial in understanding atomic and molecular behavior. For instance, when electrons in an atom absorb energy, they can jump to a higher energy level, creating an excited wave within the atom. This behavior is foundational to many technologies, including lasers and semiconductors.The implications of excited waves extend beyond the physical sciences. In the context of psychology and social dynamics, the term can metaphorically describe the emotional responses of individuals or groups. For example, at a concert, the audience often experiences an excited wave of energy that spreads among them, enhancing their collective enjoyment of the performance. This phenomenon illustrates how excitement and enthusiasm can ripple through a crowd, creating a shared sense of exhilaration.In conclusion, the concept of excited wave encompasses a wide range of meanings, from its scientific definitions in physics to its metaphorical uses in social contexts. By exploring both the technical and emotional aspects of excited waves, we gain a deeper appreciation for the interconnectedness of energy, communication, and human experience. Whether in the form of sound, light, or collective emotion, excited waves remind us of the dynamic nature of our world and the powerful forces that shape our interactions with it.

在物理学的领域中，波是一个基本概念，描述了通过各种媒介传递能量的过程。在这些波中，术语excited wave指的是一种特定类型的波，当媒介中的粒子从其平衡位置被扰动并移动到更高的能量状态时，就会发生这种现象。这种现象可以在许多上下文中观察到，从声波到电磁波。理解excited wave现象的性质和影响对于各种科学和工程应用至关重要。最常见的excited wave示例之一是在乐器中看到的。当吉他的弦被拨动时，它会振动并产生声波。弦的初始拨动使其远离静止位置，产生一个传播通过空气的excited wave，最终到达我们的耳朵。这个过程突显了能量如何通过振动转移，从而导致声音的感知。除了音乐，excited waves在电信领域也发挥着至关重要的作用。当我们通过长距离发送信号时，例如通过无线电波或光纤，我们实际上是在操控excited waves。这些波通过改变其幅度和频率来携带信息，使我们能够在广阔的距离上有效沟通。理解和利用excited waves的能力彻底改变了我们相互联系的方式，使即时通信成为可能。此外，在量子力学的研究中，excited waves呈现出更引人入胜的维度。粒子可以存在于不同的能量状态，当它们吸收能量时，会过渡到激发态。这个概念对理解原子和分子的行为至关重要。例如，当原子中的电子吸收能量时，它们可以跃迁到更高的能量级别，在原子内产生excited wave。这种行为是许多技术的基础，包括激光和半导体。excited waves的影响超越了自然科学。在心理学和社会动态的背景下，这个术语可以比喻性地描述个人或群体的情感反应。例如，在音乐会中，观众常常会体验到一种excited wave的能量在他们之间传播，增强他们对表演的共同享受。这种现象说明了兴奋和热情如何在一群人中涌动，创造出一种共享的兴奋感。总之，excited wave的概念涵盖了广泛的含义，从其在物理学中的科学定义到其在社会上下文中的比喻用法。通过探索excited waves的技术和情感方面，我们对能量、沟通和人类体验的相互联系有了更深入的理解。无论是以声音、光还是集体情感的形式，excited waves都提醒我们世界的动态本质以及塑造我们与之互动的强大力量。