isochronal
简明释义
adj. 等时的;等时线的
英英释义
Relating to or denoting events that occur at equal intervals of time. | 与事件在相等时间间隔内发生相关或表示的。 |
单词用法
等时线 | |
等时过程 | |
等时映射 | |
等时曲线 |
同义词
反义词
例句
1.As a productivity testing method of the gas well in low permeability gas reservoir, the modified isochronal testing has been widely applied in foreign gas fields.
修正等时试井作为适合于低渗透气藏气井产能试井的方法,在国外气田得到了广泛应用。
2.Seismic geomorphology is a new method for seismic facies analysis and characterization, which aims at studying the seismic imaging of sedimentary characteristics on the isochronal sedimentary surface.
地震地貌学是一种新的地震相分析与表征方法,研究的是沉积特征在沉积等时面上的地震映像。
3.The long term strength has gotten from the isochronal curves.
通过等时曲线簇确定该滑带土的长期强度。
4.According to the difference of the temporal distance between the surroundings and the city centre, an isochronal temporal map can be drawn, where time is taken as a measuring unit.
时间地图是利用时间作为量算单位,根据城市外缘各点与城市中心的时间距离长短差异描绘出的等时线地图。
5.Based on these, the isochronal stratigraphic framework of Fuyang reservoir is established, and the fluvial-delta sequence feature and evolution process are studied in this paper.
在此基础上,运用地层基准面原理,建立扶杨油层的等时地层格架,研究其河流-三角洲层序发育特征及其演化过程。
6.Seismic geomorphology is a new method for seismic facies analysis and characterization, which aims at studying the seismic imaging of sedimentary characteristics on the isochronal sedimentary surface.
地震地貌学是一种新的地震相分析与表征方法,研究的是沉积特征在沉积等时面上的地震映像。
7.Finally, isochronal facies-restrained stochastic modeling method is used to build up the 3-d reservoir model.
最后,应用等时相控随机模拟方法建立了三维可视化的储层地质模型。
8.The cycloid has an isochronal pendulum.
摆线具有严格的等时摆。
9.An isochronal 等时的 process is essential for maintaining consistent temperatures in industrial applications.
在工业应用中,等时的过程对于保持一致的温度至关重要。
10.In the study of waves, isochronal 等时的 patterns can reveal important information about the medium.
在波动研究中,等时的模式可以揭示关于介质的重要信息。
11.The researchers used isochronal 等时的 models to predict the behavior of the system over time.
研究人员使用等时的模型来预测系统随时间的行为。
12.The scientist conducted an experiment to demonstrate the principle of isochronal 等时的 motion in pendulums.
科学家进行了一个实验,以演示摆的等时的运动原理。
13.The isochronal 等时的 nature of the clock's mechanism ensures accurate timekeeping.
钟表机制的等时的特性确保了准确的时间记录。
作文
The concept of time is fundamental to our understanding of the universe, and one intriguing aspect of this concept is the idea of isochronal events. The term isochronal refers to occurrences that happen at equal intervals of time, which can be applied in various fields such as physics, music, and even in everyday life. Understanding isochronal phenomena can help us grasp the rhythms and patterns that govern our experiences.In physics, the notion of isochronal motion is particularly significant. For instance, a pendulum exhibits isochronal properties when it swings back and forth. Regardless of the amplitude of the swing, the time it takes to complete one full cycle remains constant. This characteristic is crucial for timekeeping devices, where precision is key. By studying isochronal motion, scientists can develop more accurate clocks and timing mechanisms, which have profound implications in various technological applications.Moreover, the concept of isochronal can also be found in the realm of music. Musicians often utilize isochronal rhythms to create harmonious compositions. For example, a metronome produces a steady beat at regular intervals, allowing musicians to maintain a consistent tempo throughout a piece. This isochronal structure in music not only enhances the overall aesthetic but also aids performers in synchronizing their efforts during ensemble performances. The beauty of music lies in its ability to evoke emotions, and the isochronal nature of rhythm plays a pivotal role in this emotional expression.In our daily lives, we encounter isochronal events more often than we realize. Our routines are filled with activities that occur at regular intervals. For instance, we wake up at a specific time each day, eat meals at designated hours, and go to bed after a consistent period of time. These isochronal patterns provide structure and predictability to our lives, allowing us to manage our time effectively. However, it is essential to recognize that while some events are isochronal, others are not, leading to a balance between routine and spontaneity.Understanding the implications of isochronal events can also extend to broader societal contexts. For example, public transportation systems often rely on isochronal schedules to ensure that buses and trains arrive at regular intervals. This reliability is crucial for commuters who depend on these services to get to work or school on time. When isochronal schedules are disrupted, it can lead to chaos and frustration, highlighting the importance of maintaining consistency in our transportation networks.In conclusion, the term isochronal encompasses a wide range of applications across different domains. Whether in physics, music, daily routines, or societal structures, isochronal events play a vital role in shaping our understanding of time and its impact on our lives. By recognizing and appreciating the significance of isochronal phenomena, we can enhance our efficiency, creativity, and overall quality of life. As we continue to explore the intricacies of time, the concept of isochronal will undoubtedly remain a cornerstone of both scientific inquiry and artistic expression.
时间的概念对我们理解宇宙至关重要,而这个概念中一个引人入胜的方面是isochronal事件的想法。术语isochronal指的是在相等时间间隔内发生的事件,这可以应用于物理学、音乐甚至日常生活等各个领域。理解isochronal现象可以帮助我们掌握支配我们经历的节奏和模式。在物理学中,isochronal运动的概念尤其重要。例如,摆锤在前后摆动时表现出isochronal特性。无论摆动的幅度如何,完成一个完整周期所需的时间保持不变。这一特性对于计时设备至关重要,因为精确性是关键。通过研究isochronal运动,科学家可以开发出更准确的时钟和计时机制,这在各种技术应用中具有深远的影响。此外,isochronal的概念也可以在音乐领域找到。音乐家们常常利用isochronal节奏来创作和谐的作品。例如,节拍器以规律的间隔产生稳定的节拍,使音乐家能够在一首曲子中保持一致的节奏。这种音乐中的isochronal结构不仅增强了整体美感,还帮助表演者在合奏表演中同步他们的努力。音乐的美在于它唤起情感,而节奏的isochronal特性在这种情感表达中发挥着关键作用。在我们的日常生活中,我们比我们意识到的更常遇到isochronal事件。我们的日常活动充满了在规律间隔内发生的活动。例如,我们每天在特定时间醒来,在指定时间吃饭,并在一定时间后上床睡觉。这些isochronal模式为我们的生活提供了结构和可预测性,使我们能够有效地管理时间。然而,必须认识到,虽然某些事件是isochronal的,但其他事件则不是,从而在例行公事和自发性之间保持平衡。理解isochronal事件的影响也可以扩展到更广泛的社会背景。例如,公共交通系统通常依赖于isochronal时间表,以确保公交车和火车按规律的间隔到达。这种可靠性对于依赖这些服务准时到达工作或学校的通勤者至关重要。当isochronal时间表受到干扰时,可能会导致混乱和沮丧,突显了在我们的交通网络中保持一致性的重要性。总之,术语isochronal涵盖了各个领域广泛的应用。无论是在物理学、音乐、日常生活还是社会结构中,isochronal事件在塑造我们对时间及其对我们生活影响的理解中发挥着至关重要的作用。通过认识和欣赏isochronal现象的重要性,我们可以提高我们的效率、创造力和整体生活质量。随着我们继续探索时间的复杂性,isochronal的概念无疑将继续成为科学探究和艺术表达的基石。