Indirect Collision

简明释义

间接碰撞

英英释义

例句

1.During the race, the driver experienced an Indirect Collision 间接碰撞 when another car brushed against him.

在比赛中，驾驶员在另一辆车轻擦他时经历了Indirect Collision 间接碰撞。

2.The engineer explained that the design flaw could lead to an Indirect Collision 间接碰撞 between the moving parts.

工程师解释说，设计缺陷可能导致活动部件之间的Indirect Collision 间接碰撞。

3.In a busy intersection, an Indirect Collision 间接碰撞 can occur when one vehicle swerves to avoid another.

在繁忙的交叉口，当一辆车为了避开另一辆车而急转时，可能会发生Indirect Collision 间接碰撞。

4.The simulation showed how an Indirect Collision 间接碰撞 might happen in a crowded shopping mall.

模拟显示了在拥挤的购物中心中如何发生Indirect Collision 间接碰撞。

5.An Indirect Collision 间接碰撞 can often result in unexpected damage to vehicles involved.

一个Indirect Collision 间接碰撞往往会导致涉及车辆的意外损坏。

作文

In the realm of physics and engineering, the term Indirect Collision refers to a scenario where two objects do not collide directly but still interact in a way that affects their motion or state. This concept is crucial in various fields, including vehicle safety design, robotics, and even game development. Understanding Indirect Collision can lead to better designs and safer systems, as it allows engineers and designers to anticipate potential interactions that may not be immediately obvious.For example, consider a situation in a busy intersection where two cars approach from different directions. If one car brakes suddenly, it might not directly hit the other car, but the sudden change in speed can cause a chain reaction. The first car's braking could lead to an Indirect Collision with another vehicle or pedestrian, as the momentum and forces involved create a ripple effect. This illustrates how understanding these indirect interactions is vital for improving traffic safety.In robotics, the idea of Indirect Collision is also prevalent. When programming robots for tasks in dynamic environments, engineers must account for the possibility that a robot may not directly bump into an object but could still influence its movement. For instance, if a robotic arm is moving through a workspace and comes close to a delicate object, the airflow generated by the arm's movement could potentially knock the object over. Thus, recognizing the potential for Indirect Collision helps in creating more effective safety protocols and operational guidelines for robotic systems.Moreover, in the context of video games, Indirect Collision plays a significant role in enhancing player experience and realism. Game developers often implement physics engines that simulate how characters and objects interact in a virtual environment. A character might throw an object, which does not directly hit another character, but the force of the throw could still affect the trajectory of nearby items or characters. This adds a layer of complexity and realism to gameplay, as players must navigate not only direct threats but also the consequences of their actions that lead to Indirect Collision scenarios.The implications of Indirect Collision extend beyond technical applications; they also provide valuable insights into human behavior and decision-making. In social dynamics, individuals often influence each other's actions indirectly. For example, a person might not confront another directly but could express opinions that sway a group’s perception or behavior. Understanding this indirect influence is essential in fields like psychology and sociology, where the effects of social interactions are studied.In conclusion, the concept of Indirect Collision is multifaceted and relevant across various domains. Whether in traffic safety, robotics, gaming, or social interactions, recognizing and analyzing these indirect interactions can lead to improved designs, safer systems, and deeper understanding of complex behaviors. As we continue to explore and innovate in these areas, the importance of considering Indirect Collision will undoubtedly grow, emphasizing the need for comprehensive approaches to problem-solving and design.

在物理和工程领域，术语间接碰撞指的是两种物体没有直接碰撞但仍以某种方式相互作用，从而影响它们的运动或状态的情境。这个概念在多个领域中至关重要，包括汽车安全设计、机器人技术，甚至游戏开发。理解间接碰撞可以导致更好的设计和更安全的系统，因为它使工程师和设计师能够预见可能的相互作用，这些相互作用可能并不明显。例如，考虑一个繁忙的交叉口，两辆车从不同方向驶来。如果一辆车突然刹车，它可能不会直接撞上另一辆车，但速度的突然变化会引发连锁反应。第一辆车的刹车可能导致与另一辆车辆或行人的间接碰撞，因为涉及的动量和力量产生了涟漪效应。这说明理解这些间接相互作用对于提高交通安全至关重要。在机器人技术中，间接碰撞的概念也很普遍。当在动态环境中编程机器人执行任务时，工程师必须考虑到机器人可能不会直接与物体碰撞，但仍可能影响其运动。例如，如果一个机器人手臂在工作空间中移动并接近一个精致的物体，手臂运动产生的气流可能会将物体撞倒。因此，认识到间接碰撞的潜力有助于创建更有效的安全协议和操作指南。此外，在视频游戏的背景下，间接碰撞在增强玩家体验和现实感方面发挥了重要作用。游戏开发者通常实现物理引擎，模拟角色和物体在虚拟环境中的相互作用。一个角色可能投掷一个物体，该物体并没有直接击中另一个角色，但投掷的力量仍然可能影响附近物品或角色的轨迹。这为游戏玩法增加了一层复杂性和现实感，因为玩家不仅必须应对直接威胁，还必须应对其行为导致的间接碰撞情境。间接碰撞的影响超越了技术应用；它们还提供了对人类行为和决策的重要见解。在社会动态中，个体往往间接地影响彼此的行为。例如，一个人可能不会直接与另一个人对抗，但可能会表达意见，从而影响一个群体的看法或行为。理解这种间接影响在心理学和社会学等领域中是至关重要的，这些领域研究社会互动的影响。总之，间接碰撞的概念是多方面的，并且在各个领域中都相关。无论是在交通安全、机器人技术、游戏还是社会互动中，识别和分析这些间接相互作用可以导致更好的设计、更安全的系统以及对复杂行为的更深刻理解。随着我们继续在这些领域进行探索和创新，考虑间接碰撞的重要性无疑会增加，强调了全面解决问题和设计方法的必要性。