dynamic characteristics

简明释义

动态特性

英英释义

例句

1.The dynamic characteristics 动态特性 of the vehicle were tested under various conditions to ensure safety and performance.

该车辆的动态特性 dynamic characteristics在不同条件下进行了测试，以确保安全性和性能。

2.In robotics, understanding the dynamic characteristics 动态特性 of a robot's movements is crucial for programming its actions accurately.

在机器人技术中，理解机器人的运动动态特性 dynamic characteristics对于准确编程其动作至关重要。

3.The dynamic characteristics 动态特性 of the material must be considered when designing a new product.

在设计新产品时，必须考虑材料的动态特性 dynamic characteristics。

4.The engineer analyzed the dynamic characteristics 动态特性 of the bridge to ensure it could withstand high winds.

工程师分析了桥梁的动态特性 dynamic characteristics以确保它能够抵御强风。

5.Researchers studied the dynamic characteristics 动态特性 of the fluid flow to improve the design of the pipeline.

研究人员研究了流体流动的动态特性 dynamic characteristics以改进管道设计。

作文

In the study of engineering and physics, understanding the dynamic characteristics of a system is crucial for its effective design and application. The term dynamic characteristics refers to the behavior of a system in response to external forces over time. This includes how the system reacts to changes in input, such as force or energy, and how it behaves during transient states. For example, when designing a car, engineers must consider the dynamic characteristics of the vehicle to ensure that it can handle various driving conditions, such as sharp turns or sudden stops. The dynamic characteristics of a system can be analyzed through various methods, including mathematical modeling and simulation. By creating models that represent the physical properties and interactions of components, engineers can predict how the system will respond under different scenarios. This predictive capability is essential for innovation in technology, as it allows for the optimization of designs before they are physically built. Moreover, the dynamic characteristics play a significant role in fields such as robotics and aerospace. For instance, in robotics, understanding the dynamic characteristics of robotic arms is vital for ensuring precision in tasks such as assembly or surgery. Engineers must account for factors such as inertia, friction, and the mass of the arm to achieve desired movements accurately. In aerospace, the dynamic characteristics of aircraft are fundamental for flight stability and control. Pilots rely on knowledge of these characteristics to maneuver the aircraft safely and efficiently. In addition to engineering applications, the concept of dynamic characteristics can also be observed in natural systems. For example, ecosystems exhibit dynamic characteristics as they respond to environmental changes, such as climate shifts or human intervention. Understanding these characteristics helps ecologists develop strategies for conservation and sustainability. Furthermore, the dynamic characteristics of social systems can influence human behavior and decision-making. Economists often analyze the dynamic characteristics of markets to understand how supply and demand fluctuate over time. By studying these trends, businesses can make informed decisions about production and pricing. In conclusion, the dynamic characteristics of any system—whether mechanical, natural, or social—are essential for understanding how that system operates and responds to changes. Recognizing these characteristics allows engineers, scientists, and policymakers to make better decisions, innovate effectively, and create solutions that meet the needs of society. As we continue to advance technologically and face new challenges, a deep comprehension of dynamic characteristics will remain a cornerstone of progress and development.

在工程和物理学的研究中，理解系统的动态特性对于其有效设计和应用至关重要。术语动态特性指的是系统对外部力量随时间变化的行为。这包括系统如何对输入的变化（例如力或能量）作出反应，以及在瞬态状态下的行为。例如，在设计汽车时，工程师必须考虑车辆的动态特性，以确保它能够处理各种驾驶条件，例如急转弯或突然停止。系统的动态特性可以通过多种方法进行分析，包括数学建模和仿真。通过创建代表物理属性和组件相互作用的模型，工程师可以预测系统在不同场景下的反应。这种预测能力对于技术创新至关重要，因为它允许在实际构建之前优化设计。此外，动态特性在机器人和航空航天等领域也起着重要作用。例如，在机器人技术中，理解机器人臂的动态特性对于确保在组装或手术等任务中的精确性至关重要。工程师必须考虑惯性、摩擦和机械臂质量等因素，以准确实现所需的运动。在航空航天领域，飞机的动态特性是飞行稳定性和控制的基础。飞行员依赖这些特性知识来安全高效地操控飞机。除了工程应用，动态特性的概念在自然系统中也可以观察到。例如，生态系统表现出动态特性，因为它们对环境变化（如气候变化或人为干预）作出反应。理解这些特性有助于生态学家制定保护和可持续发展的策略。此外，社会系统的动态特性可能会影响人类行为和决策。经济学家经常分析市场的动态特性，以了解供需如何随时间波动。通过研究这些趋势，企业可以就生产和定价做出明智的决策。总之，任何系统的动态特性——无论是机械的、自然的还是社会的——对于理解该系统如何运作以及如何对变化作出反应至关重要。认识到这些特性使工程师、科学家和政策制定者能够做出更好的决策，有效创新，并创造满足社会需求的解决方案。随着我们继续在技术上进步并面临新挑战，对动态特性的深刻理解将始终是进步和发展的基石。