oscillating
简明释义
adj. [物] 振荡的
英英释义
以规律的节奏前后摆动或摇动。 | |
在不同状态或条件之间波动。 |
单词用法
振荡频率 | |
脉动流;波动流量 |
同义词
振动 | 摆锤在来回振动。 | ||
摇摆 | 树枝在风中摇摆。 | ||
波动 | 股票价格每天都在波动。 | ||
波浪 | 旗帜在微风中飘扬。 |
反义词
稳定的 | 该系统在各种条件下保持稳定。 | ||
恒定的 | 实验过程中温度保持恒定。 |
例句
它在震荡。
2.There is a famous film of one of MIT's star professors, the physicist Walter Lewin, demonstrating the relationship between an oscillating metal ball and mass.
有一部很有名的电影,是关于麻省理工一个有名教授的电影,即物理学家Walter Lewin演示震荡金属球和质量间的关系。
3.Life is like a pendulum, always desire oscillating between pain and meet the tired!
人生就像一只钟摆,永远在渴望的痛苦和满足的厌倦之间摆动!鲐。
4.Waves are related to oscillating systems.
波动与振动系统有关。
5.I simply go to this equation, and I want to know what the period is of this rod, of this oscillating rod.
我只需要带去这个等式,我想知道这跟,摆动杆的周期。
6.Mars, in contrast, has a wildly oscillating tilt and chaotic seasonality, while Venus, rotating slowly backward, has virtually no seasonality at all.
相比之下,火星有着剧烈的倾斜和混乱的季节性,而金星则缓慢地向后旋转,几乎没有实质上的任何季节性。
7.The pendulum is oscillating 摆动 back and forth steadily.
这个钟摆正在有规律地摆动。
8.In physics class, we learned about oscillating 振荡 systems like springs and waves.
在物理课上,我们学习了关于像弹簧和波这样的振荡系统。
9.The oscillating 震荡的 motion of the guitar strings produces beautiful music.
吉他弦的震荡的运动产生了美妙的音乐。
10.The fan's blades are oscillating 摇摆 to provide a cool breeze.
风扇的刀片正在摇摆以提供凉爽的微风。
11.The stock market is known for its oscillating 波动 prices throughout the day.
股市以其全天的波动价格而闻名。
作文
In the world of physics, the term oscillating (振荡) is frequently used to describe the repetitive back-and-forth movement of an object around a central point. This concept can be observed in various natural phenomena and mechanical systems, making it a fundamental principle in understanding motion and energy. For instance, consider a simple pendulum swinging from side to side. The pendulum is oscillating (振荡) as it moves through its arc, demonstrating the principles of gravitational force and inertia. The time it takes for the pendulum to complete one full swing is known as its period, which remains constant regardless of the amplitude of the swing, as long as the angle is small. Beyond physics, the idea of oscillating (振荡) can also be applied metaphorically to describe emotional states and human behavior. People often experience feelings that are not static but instead fluctuate over time. For example, someone might feel happy and content one moment and then anxious or sad the next. This emotional oscillating (振荡) can be influenced by various factors, including personal experiences, relationships, and external circumstances. Understanding this aspect of human psychology can help individuals navigate their emotions more effectively. In technology, oscillating (振荡) mechanisms are essential in many devices. For instance, in electronics, oscillators are circuits that produce periodic signals, often used in clocks, radios, and computers. These devices rely on the principle of oscillating (振荡) currents to function properly. The stability and frequency of these oscillations are crucial for accurate timekeeping and signal processing. Engineers and designers must carefully consider the oscillating (振荡) behavior of these circuits to ensure reliability and efficiency in their applications. Moreover, in the realm of music, oscillating (振荡) sounds play a significant role in creating rhythm and melody. Instruments like guitars and violins produce sound through the oscillating (振荡) vibrations of strings. When a string is plucked or bowed, it vibrates at specific frequencies, generating musical notes. The oscillating (振荡) nature of sound waves is what allows us to perceive different pitches and tones, enriching our auditory experiences. In conclusion, the concept of oscillating (振荡) extends far beyond the confines of physics. It encompasses a wide range of applications in everyday life, from the emotional ups and downs we experience to the technological advancements that shape our world. By recognizing the significance of oscillating (振荡) movements in various contexts, we can gain a deeper appreciation for the complexities of both the physical universe and human existence. As we continue to explore these oscillations, we uncover new insights that enhance our understanding of the world around us.
在物理学的世界中,术语oscillating(振荡)常常用来描述一个物体围绕中心点的重复前后运动。这个概念可以在各种自然现象和机械系统中观察到,使其成为理解运动和能量的基本原则。例如,考虑一个简单的摆从一侧摆动到另一侧。摆在其弧形轨迹中oscillating(振荡),展示了重力和惯性的原理。摆完成一次完整摆动所需的时间称为其周期,只要角度较小,这个周期保持不变,无论摆动幅度如何。 超越物理学,oscillating(振荡)的概念也可以比喻性地应用于描述情感状态和人类行为。人们常常经历的不仅是静态的情感,而是随着时间的波动。例如,有人可能会在某一时刻感到快乐和满足,而在下一个时刻又感到焦虑或悲伤。这种情感的oscillating(振荡)可能受到多种因素的影响,包括个人经历、关系以及外部环境。理解人类心理的这一方面可以帮助个人更有效地应对自己的情感。 在技术领域,oscillating(振荡)机制在许多设备中至关重要。例如,在电子学中,振荡器是产生周期性信号的电路,通常用于时钟、收音机和计算机。这些设备依赖于oscillating(振荡)电流的原理才能正常工作。这些振荡的稳定性和频率对于准确的计时和信号处理至关重要。工程师和设计师必须仔细考虑这些电路的oscillating(振荡)行为,以确保其应用的可靠性和效率。 此外,在音乐领域,oscillating(振荡)声音在创造节奏和旋律中发挥着重要作用。像吉他和小提琴这样的乐器通过弦的oscillating(振荡)振动产生声音。当弦被拨动或拉弓时,它以特定的频率振动,产生音乐音符。声音波的oscillating(振荡)特性使我们能够感知不同的音高和音调,丰富了我们的听觉体验。 总之,oscillating(振荡)这一概念远远超出了物理学的范畴。它涵盖了日常生活中广泛的应用,从我们经历的情感起伏到塑造我们世界的技术进步。通过认识到oscillating(振荡)运动在各种背景下的重要性,我们可以更深入地欣赏物理宇宙和人类存在的复杂性。随着我们继续探索这些振荡,我们发现新的见解,增强了我们对周围世界的理解。
文章标题:oscillating的意思是什么
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