cessation speed

简明释义

中止速度

英英释义

例句

1.Engineers calculated the cessation speed (停止速度) required for the roller coaster to finish its ride safely.

工程师计算了过山车安全完成游乐的所需停止速度。

2.The pilot adjusted the aircraft's descent to ensure that the cessation speed (停止速度) was reached safely before landing.

飞行员调整了飞机的下降，以确保在着陆前安全地达到停止速度。

3.In the case of emergency braking, the vehicle's cessation speed (停止速度) is crucial for avoiding collisions.

在紧急制动的情况下，车辆的停止速度对避免碰撞至关重要。

4.Understanding the cessation speed (停止速度) of the conveyor belt is essential for efficient manufacturing processes.

理解传送带的停止速度对于高效的制造过程至关重要。

5.The athlete practiced her sprinting technique to improve her cessation speed (停止速度) at the finish line.

运动员练习她的冲刺技术，以提高她在终点线的停止速度。

作文

In the realm of physics and engineering, understanding various concepts is crucial for the development of technologies that enhance our daily lives. One such concept is cessation speed, which refers to the rate at which an object comes to a stop. This term is especially important in fields like automotive engineering, aerodynamics, and safety studies, where knowing how quickly a vehicle or an aircraft can decelerate is vital for ensuring safety and efficiency. The cessation speed can be influenced by multiple factors, including friction, mass, and initial velocity. To illustrate this idea, consider a car traveling at a high speed on a highway. When the driver applies the brakes, the car begins to decelerate. The cessation speed in this scenario would determine how quickly the car can come to a complete stop before it reaches an obstacle. Engineers must calculate this speed accurately to design effective braking systems that can handle various conditions, such as wet or icy roads. Moreover, the cessation speed is not only significant in automotive contexts but also plays a crucial role in aviation. For instance, when an airplane lands, pilots must be aware of the aircraft's cessation speed to ensure a safe landing. If the plane cannot decelerate quickly enough, it risks overshooting the runway, which could lead to catastrophic consequences. Therefore, understanding the principles behind cessation speed helps in designing better aircraft systems and improving pilot training programs.In addition to practical applications, the concept of cessation speed also has implications in sports science. Athletes often need to understand how to control their speed effectively. For example, a sprinter must know how to decelerate after finishing a race to avoid injury. Coaches and trainers analyze the cessation speed of athletes during training sessions to help them improve their performance and reduce the risk of accidents.Furthermore, the study of cessation speed can extend into environmental science, particularly in the context of pollution control. When assessing the impact of vehicles on air quality, researchers might examine the cessation speed of different types of engines and their emissions during deceleration. Understanding how quickly vehicles can stop and the associated emissions can inform policies aimed at reducing urban pollution.In conclusion, the concept of cessation speed is multifaceted, with applications spanning various fields such as engineering, aviation, sports science, and environmental studies. As we continue to advance technologically, grasping the nuances of this term will be essential for creating safer and more efficient systems. Whether it’s ensuring that cars can stop in time to prevent accidents or helping athletes manage their speed effectively, the importance of cessation speed cannot be overstated. By further exploring this concept, we can pave the way for innovations that enhance safety and performance across multiple domains.

在物理和工程领域，理解各种概念对于开发增强我们日常生活的技术至关重要。一个这样的概念是停止速度，它指的是一个物体停止的速度。这一术语在汽车工程、空气动力学和安全研究等领域尤为重要，因为了解车辆或飞机能够多快减速对于确保安全和效率至关重要。停止速度可以受到多个因素的影响，包括摩擦、质量和初始速度。为了说明这个想法，考虑一下一辆在高速公路上行驶的汽车。当司机踩下刹车时，汽车开始减速。在这种情况下，停止速度将决定汽车在撞到障碍物之前能多快完全停下来。工程师必须准确计算这一速度，以设计出能够应对各种条件（如潮湿或结冰道路）的有效制动系统。此外，停止速度不仅在汽车上下文中重要，在航空领域也发挥着至关重要的作用。例如，当飞机降落时，飞行员必须了解飞机的停止速度以确保安全着陆。如果飞机无法足够快地减速，它就有可能超出跑道，这可能导致灾难性的后果。因此，理解与停止速度相关的原理有助于设计更好的飞机系统并改善飞行员培训程序。除了实际应用外，停止速度的概念在运动科学中也具有重要意义。运动员通常需要了解如何有效控制他们的速度。例如，短跑运动员必须知道如何在比赛结束后减速以避免受伤。教练和训练师在训练课程中分析运动员的停止速度，以帮助他们提高表现并减少事故风险。此外，停止速度的研究还可以扩展到环境科学，特别是在污染控制的背景下。当评估车辆对空气质量的影响时，研究人员可能会检查不同类型发动机在减速过程中的停止速度及其排放。了解车辆能够多快停车以及相关排放可以为旨在减少城市污染的政策提供信息。总之，停止速度的概念是多方面的，应用遍及工程、航空、运动科学和环境研究等多个领域。随着我们在技术上的不断进步，掌握这一术语的细微差别将对创建更安全、更高效的系统至关重要。无论是确保汽车能够及时停车以防止事故，还是帮助运动员有效管理他们的速度，停止速度的重要性都不容小觑。通过进一步探索这一概念，我们可以为在多个领域增强安全性和性能的创新铺平道路。