collision distance

简明释义

碰撞距离

英英释义

例句

1.During the race, the team monitored the collision distance 碰撞距离 to avoid crashes.

在比赛期间，团队监测碰撞距离 碰撞距离以避免碰撞。

2.In aviation, maintaining a safe collision distance 碰撞距离 between planes is crucial for preventing accidents.

在航空领域，保持飞机之间的安全碰撞距离 碰撞距离 对于防止事故至关重要。

3.The driver was alerted when the vehicle approached the collision distance 碰撞距离 of another car.

当车辆接近另一辆车的碰撞距离 碰撞距离时，司机收到了警报。

4.The software calculates the collision distance 碰撞距离 to ensure robots do not bump into each other.

该软件计算碰撞距离 碰撞距离，以确保机器人不会相互碰撞。

5.The engineer designed the system to alert users when they were within collision distance 碰撞距离 of obstacles.

工程师设计了系统，以在用户接近障碍物的碰撞距离 碰撞距离时发出警报。

作文

In the realm of physics and engineering, the concept of collision distance is crucial for understanding how objects interact with one another. The term refers to the minimum distance at which two objects can approach each other before they make contact. This distance is significant in various fields, including automotive safety, robotics, and space exploration. Understanding collision distance helps engineers design systems that can prevent accidents and ensure safety. For instance, in the automotive industry, the collision distance plays a vital role in the development of advanced driver-assistance systems (ADAS). These systems use sensors and cameras to detect obstacles and calculate the collision distance to determine whether a vehicle needs to slow down or stop. By accurately measuring this distance, vehicles can avoid potential crashes, thereby saving lives and reducing injuries on the road. Similarly, in robotics, understanding collision distance is essential for ensuring that robots can navigate their environments safely. Robots equipped with sensors must be programmed to recognize when they are within a certain collision distance of an object, allowing them to adjust their movements accordingly. This capability is particularly important in industrial settings where multiple machines operate in close proximity. By maintaining a safe collision distance, robots can work efficiently without risking damage to themselves or their surroundings. In the context of space exploration, the concept of collision distance becomes even more critical. Satellites and spacecraft must maintain specific distances from one another to prevent collisions in the vastness of space. Space agencies use sophisticated tracking systems to monitor the positions of various objects in orbit and calculate their collision distance. If two objects are predicted to come within a certain threshold, maneuvers may be executed to alter their trajectories and increase the collision distance. This proactive approach is essential for ensuring the longevity of satellites and the safety of space missions. Moreover, the mathematical calculations involved in determining collision distance often rely on principles of geometry and physics. Engineers and scientists utilize formulas that take into account the speed, size, and trajectory of moving objects to establish safe collision distances. By applying these principles, they can create models that predict potential interactions between objects, leading to better safety measures and designs. In conclusion, the concept of collision distance is integral to many technological advancements and safety protocols across various industries. Whether it is in the design of safer vehicles, the programming of autonomous robots, or the management of space traffic, understanding and calculating collision distance is vital for preventing accidents and ensuring smooth operations. As technology continues to evolve, the importance of maintaining appropriate collision distances will only grow, highlighting the need for ongoing research and development in this area.

在物理和工程领域，碰撞距离的概念对于理解物体之间的相互作用至关重要。这个术语指的是两个物体在接触之前可以接近的最小距离。这个距离在多个领域都具有重要意义，包括汽车安全、机器人技术和太空探索。理解碰撞距离可以帮助工程师设计出能够防止事故并确保安全的系统。例如，在汽车工业中，碰撞距离在先进驾驶辅助系统（ADAS）的开发中发挥着重要作用。这些系统使用传感器和摄像头来检测障碍物，并计算碰撞距离，以确定车辆是否需要减速或停车。通过准确测量这个距离，车辆可以避免潜在的碰撞，从而拯救生命并减少道路上的伤害。同样，在机器人技术中，理解碰撞距离对于确保机器人能够安全导航其环境至关重要。配备传感器的机器人必须被编程以识别它们与物体的某个碰撞距离内的情况，从而允许它们相应地调整运动。这种能力在多个机器紧密运行的工业环境中尤为重要。通过保持安全的碰撞距离，机器人可以高效工作，而不会冒着损坏自身或周围环境的风险。在太空探索的背景下，碰撞距离的概念变得更加关键。卫星和航天器必须保持特定的距离，以防止在浩瀚的太空中发生碰撞。航天机构使用复杂的跟踪系统来监控轨道上各种物体的位置，并计算它们的碰撞距离。如果预测到两个物体将接近某个阈值，可能会执行机动以改变它们的轨迹并增加碰撞距离。这种主动的方法对于确保卫星的长寿和太空任务的安全至关重要。此外，确定碰撞距离所涉及的数学计算通常依赖于几何和物理的原理。工程师和科学家利用考虑移动物体的速度、大小和轨迹的公式来建立安全的碰撞距离。通过应用这些原理，他们可以创建预测物体之间潜在相互作用的模型，从而导致更好的安全措施和设计。总之，碰撞距离的概念对于许多技术进步和各行业的安全协议至关重要。无论是在设计更安全的车辆、编程自主机器人，还是管理太空交通，理解和计算碰撞距离对于防止事故和确保顺利操作都是至关重要的。随着技术的不断发展，保持适当的碰撞距离的重要性只会增加，这突显了在这一领域持续研究和发展的必要性。