collision time

简明释义

碰撞时间

英英释义

例句

1.The system calculates the collision time 碰撞时间 for two moving objects to ensure they do not overlap.

系统计算两个移动物体的collision time 碰撞时间以确保它们不重叠。

2.Engineers must calculate the collision time 碰撞时间 to prevent accidents in automated systems.

工程师必须计算collision time 碰撞时间以防止自动化系统中的事故。

3.The physics engine uses collision time 碰撞时间 to determine when two objects will interact.

物理引擎使用collision time 碰撞时间来确定两个物体何时会相互作用。

4.In video games, developers often adjust the collision time 碰撞时间 to enhance gameplay experience.

在视频游戏中，开发者通常会调整collision time 碰撞时间以提升游戏体验。

5.During simulations, accurate collision time 碰撞时间 is crucial for realistic outcomes.

在模拟过程中，准确的collision time 碰撞时间对现实结果至关重要。

作文

In the realm of physics and engineering, the concept of collision time is crucial for understanding how objects interact when they collide. This term refers to the duration during which two or more objects are in contact with each other during a collision event. The collision time can significantly affect the outcomes of collisions, such as the forces experienced by the objects involved and the resulting damage. For instance, in car accidents, a shorter collision time typically leads to higher forces acting on the vehicles and their occupants, increasing the risk of injury. To illustrate, consider a scenario where two cars collide at an intersection. If the collision time is very brief, the impact force will be immense, leading to severe structural damage to both vehicles. On the other hand, if the collision occurs at a slower speed or if one vehicle is able to crumple upon impact, the collision time may be extended, allowing for a more gradual transfer of energy and potentially reducing the forces involved. This highlights the importance of designing vehicles with features that can absorb impact energy, thereby increasing the collision time and enhancing passenger safety.In sports, the collision time also plays a vital role. For example, in football, when players tackle each other, the collision time can determine how much force is exerted on the players' bodies. Coaches and trainers often emphasize techniques that allow players to engage in tackles that maximize the collision time, minimizing the risk of injury. Understanding this concept can lead to better training methods and safer playing conditions.Moreover, in the field of robotics, engineers must carefully consider collision time when designing robotic systems that interact with humans or other machines. Robots that operate in close proximity to humans need to have sensors and algorithms that can calculate collision time accurately to prevent accidents. By predicting how long a collision might last, robots can adjust their movements to avoid causing harm, making them safer for human interaction.In conclusion, the concept of collision time is not only fundamental in physics but also has practical applications across various fields, including automotive safety, sports, and robotics. Understanding and manipulating collision time can lead to advancements in technology and improvements in safety standards. As we continue to explore the dynamics of collisions, it becomes increasingly important to consider how collision time influences the interactions between objects and the potential consequences of these interactions. By prioritizing research and development in this area, we can create safer environments for everyone, whether on the road, in sports arenas, or in our daily lives.

在物理和工程领域，碰撞时间的概念对于理解物体在碰撞时的相互作用至关重要。这个术语指的是在碰撞事件中，两个或多个物体彼此接触的持续时间。碰撞时间会显著影响碰撞的结果，例如参与物体所承受的力以及随之而来的损坏。例如，在汽车事故中，较短的碰撞时间通常会导致车辆及其乘员承受更高的力量，从而增加受伤的风险。举个例子，考虑两辆汽车在十字路口相撞的场景。如果碰撞时间非常短暂，冲击力将是巨大的，导致两辆车的结构严重损坏。另一方面，如果碰撞发生在较慢的速度下，或者其中一辆车能够在撞击时变形，则碰撞时间可能会延长，从而允许能量更渐进地转移，并可能减少涉及的力量。这突显了设计能够吸收冲击能量的车辆特征的重要性，从而增加碰撞时间并提高乘客安全性。在体育运动中，碰撞时间也发挥着重要作用。例如，在足球比赛中，当球员彼此铲球时，碰撞时间可以决定施加在球员身体上的力量。教练和训练师常常强调使用技巧，使球员在铲球时最大化碰撞时间，从而尽量减少受伤的风险。理解这一概念可以导致更好的训练方法和更安全的比赛条件。此外，在机器人技术领域，工程师在设计与人类或其他机器互动的机器人系统时，必须仔细考虑碰撞时间。在与人类近距离操作的机器人需要具备能够准确计算碰撞时间的传感器和算法，以防止事故的发生。通过预测碰撞可能持续多长时间，机器人可以调整其运动以避免造成伤害，使其与人类的互动更加安全。总之，碰撞时间的概念不仅在物理学中是基础性的，而且在汽车安全、体育和机器人等多个领域具有实际应用。理解和操控碰撞时间可以推动技术进步和安全标准的提升。随着我们继续探索碰撞的动态，越来越重要的是要考虑碰撞时间如何影响物体之间的相互作用以及这些相互作用的潜在后果。通过优先考虑这一领域的研究和开发，我们可以为每个人创造更安全的环境，无论是在道路上、体育场还是我们的日常生活中。