latening
简明释义
v. 使变晚,使晚生长(或晚制造)
第 三 人 称 单 数 l a t e n s
现 在 分 词 l a t e n i n g
过 去 式 l a t e n e d
过 去 分 词 l a t e n e d
英英释义
变得迟到或延迟发生的行为。 | |
比预期或通常时间晚的状态。 |
单词用法
一天的渐晚 | |
在渐晚的时光里 | |
渐晚的太阳 | |
渐长的阴影 |
同义词
| 延迟 | 由于不可预见的情况,项目正在延迟。 | ||
| 推迟 | 我们将会议推迟到下周。 | ||
| 延后 | They decided to defer the decision until more information is available. | 他们决定将决定延后,直到获得更多信息。 |
反义词
| 加速 | 这辆车正在高速公路上飞驰。 | ||
| 加快 | 我们需要加快努力以赶上截止日期。 |
例句
1.The chef explained how latening can improve the texture of the dough.
厨师解释了如何通过 latening 改善面团的质地。
2.The latening of the sauce made it richer and more flavorful.
酱汁的 latening 使其更加浓郁和美味。
3.During fermentation, latening occurs to enhance the taste of the beverage.
在发酵过程中,latening 会发生,以增强饮料的味道。
4.The process of latening is essential for the development of certain flavors in cheese.
在奶酪的某些风味发展中,latening 的过程是必不可少的。
5.In baking, latening is crucial for achieving the perfect rise in bread.
在烘焙中,latening 对于实现面包的完美膨胀至关重要。
作文
In the world of physics, especially in the study of waves and vibrations, the concept of latening (延迟) plays a crucial role in understanding how energy is transferred and how systems behave over time. Latening refers to the delay or lag that occurs in a system's response to an external stimulus. This phenomenon can be observed in various contexts, from acoustics to mechanical systems, and it is essential for engineers and scientists to account for latening when designing and analyzing systems.For example, consider a simple pendulum. When the pendulum is set into motion, there is a delay before it reaches its maximum height on the opposite side. This delay is an example of latening. It is not just a simple back-and-forth motion; instead, the pendulum's behavior is influenced by factors such as gravity, friction, and the initial force applied to it. Understanding the latening in this context allows physicists to predict the pendulum's future positions and velocities more accurately.In the realm of sound, latening can be observed in the way sound waves travel through different mediums. When a sound is produced, there is a brief moment before it is heard by an observer. This delay can be attributed to the speed of sound in the medium, which varies based on temperature, pressure, and density. For instance, sound travels faster in water than in air, leading to a noticeable latening effect when someone jumps into a pool and splashes. The splash creates ripples, and the sound of the splash reaches the ears of a person standing nearby after a short delay.Moreover, in electrical engineering, latening is a critical factor in circuit design. When a voltage is applied to a circuit, there is a finite time before the current begins to flow. This time delay is known as latening and is influenced by the characteristics of the components used in the circuit. Engineers must take this into account to ensure that devices operate efficiently and reliably. If latening is not properly managed, it can lead to issues such as signal distortion or timing errors, which can severely impact the performance of electronic systems.In conclusion, latening (延迟) is a fundamental concept that permeates various fields of study, including physics, acoustics, and engineering. Recognizing and understanding latening allows professionals to design better systems, predict behaviors more accurately, and ultimately improve the efficiency and effectiveness of their work. Whether it’s a swinging pendulum, the sound of a splash, or the flow of electricity, latening is an essential factor that cannot be overlooked. As we continue to explore the intricacies of the natural world and develop new technologies, the importance of latening will only become more pronounced, highlighting the need for a deeper understanding of this concept across various disciplines.
在物理学的世界中,特别是在波动和振动的研究中,latening(延迟)这一概念在理解能量如何传递以及系统如何随时间变化方面起着至关重要的作用。latening 指的是系统对外部刺激反应时发生的延迟或滞后。这种现象可以在各种上下文中观察到,从声学到机械系统,工程师和科学家在设计和分析系统时必须考虑 latening。例如,考虑一个简单的摆。当摆被启动时,在它到达对面最大高度之前会有一个延迟。这个延迟就是 latening 的一个例子。它不仅仅是简单的来回运动;相反,摆的行为受到重力、摩擦和施加的初始力等因素的影响。理解这一背景下的 latening 使物理学家能够更准确地预测摆的未来位置和速度。在声音领域,latening 可以在声音波通过不同介质传播的方式中观察到。当产生声音时,在听众听到之前会有一段短暂的时间。这种延迟可以归因于声音在介质中的传播速度,而这种速度根据温度、压力和密度的不同而有所变化。例如,声音在水中传播的速度快于在空气中,因此当某人跳入游泳池并溅起水花时,就会产生明显的 latening 效应。水花产生涟漪,水花的声音在短暂延迟后才会传达到附近站着的人的耳朵。此外,在电气工程中,latening 是电路设计中的一个关键因素。当电压施加到电路时,电流开始流动之前有一个有限的时间。这段时间延迟被称为 latening,受电路中使用的组件特性的影响。工程师必须考虑这一点,以确保设备高效可靠地运行。如果 latening 没有得到妥善管理,可能会导致信号失真或时间错误等问题,这会严重影响电子系统的性能。总之,latening(延迟)是一个基本概念,渗透到各个研究领域,包括物理学、声学和工程学。认识和理解 latening 使专业人士能够设计更好的系统,更准确地预测行为,并最终提高他们工作的效率和有效性。无论是摆动的摆、溅起的水声还是电流的流动,latening 都是一个不可忽视的重要因素。随着我们继续探索自然界的复杂性并开发新技术,latening 的重要性将愈加明显,突显出在各个学科中对这一概念更深入理解的必要性。
