straddle stability

简明释义

横跨稳定性

英英释义

例句

1.The athlete's stance was crucial for maintaining straddle stability while performing the routine.

运动员的姿势对于在表演例行动作时保持跨越稳定性至关重要。

2.The engineer designed the bridge to ensure straddle stability during high winds.

工程师设计这座桥以确保在大风中保持跨越稳定性。

3.In the context of finance, a portfolio can achieve straddle stability by balancing high-risk and low-risk assets.

在金融背景下，通过平衡高风险和低风险资产，投资组合可以实现跨越稳定性。

4.The software aims to create straddle stability in network connections to prevent data loss.

该软件旨在创建网络连接中的跨越稳定性以防止数据丢失。

5.A well-designed vehicle should provide straddle stability on uneven terrain.

一辆设计良好的车辆应在不平坦的地形上提供跨越稳定性。

作文

In the realm of engineering and physics, the term straddle stability refers to a condition where a structure or system maintains its equilibrium while being subjected to external forces or moments. This concept is particularly important in the design of bridges, buildings, and various mechanical systems, where stability is paramount for safety and functionality. The ability to achieve straddle stability allows engineers to create structures that can withstand dynamic loads such as wind, earthquakes, and vehicular traffic.To better understand straddle stability, we can look at the example of a bridge. When designing a bridge, engineers must consider not only the weight of the materials used but also the forces that will act upon it during its lifespan. These forces include the weight of vehicles crossing the bridge, environmental factors like wind and rain, and potential seismic activity. By ensuring that the bridge can maintain straddle stability, engineers can prevent catastrophic failures that could result from excessive bending or swaying.Moreover, straddle stability is not limited to large structures; it is also relevant in everyday items such as bicycles and motorcycles. For instance, a bicycle remains upright when the rider is in motion due to the gyroscopic effect and the distribution of weight. This balance is a form of straddle stability, where the bike's design allows it to remain stable while navigating turns and uneven surfaces. If the bicycle were to lose this stability, it could easily tip over, leading to accidents.In the context of robotics, straddle stability plays a crucial role in the design of autonomous vehicles and humanoid robots. Engineers must ensure that these machines can maintain their balance during movement and when interacting with their environment. For example, a robot designed to walk must have a low center of gravity and a wide base to achieve straddle stability. If the robot is too top-heavy or has a narrow stance, it risks falling over, which could hinder its functionality and performance.Furthermore, straddle stability can also be observed in financial markets and economic theories. In finance, the term describes a strategy where an investor holds positions in both directions (long and short) to mitigate risk and capitalize on market volatility. This approach ensures that regardless of market movements, the investor can maintain stability in their portfolio. Just as in engineering, where maintaining physical balance is essential, in finance, achieving straddle stability can lead to more secure investment outcomes.In conclusion, straddle stability is a multifaceted concept that spans various fields, from engineering to finance. Its significance cannot be overstated, as it helps ensure the safety, functionality, and reliability of structures, vehicles, and financial strategies. Understanding and applying the principles of straddle stability enables professionals to create solutions that are not only effective but also resilient against the challenges posed by external factors. As we continue to innovate and develop new technologies, the importance of straddle stability will undoubtedly remain a cornerstone of successful design and implementation.

在工程和物理学领域，术语straddle stability指的是一种条件，即结构或系统在受到外部力或力矩作用时保持其平衡。这一概念在桥梁、建筑物以及各种机械系统的设计中尤为重要，因为稳定性对于安全性和功能性至关重要。实现straddle stability的能力使工程师能够创建能够承受风、地震和交通等动态载荷的结构。为了更好地理解straddle stability，我们可以看一个桥梁的例子。在设计桥梁时，工程师不仅必须考虑所用材料的重量，还必须考虑在其使用寿命内将作用于其上的力。这些力包括过桥车辆的重量、风和雨等环境因素以及潜在的地震活动。通过确保桥梁能够维持straddle stability，工程师可以防止由于过度弯曲或摇摆而导致的灾难性故障。此外，straddle stability并不仅限于大型结构；它在日常物品中也具有相关性，例如自行车和摩托车。例如，由于陀螺效应和重心分布，自行车在骑行者运动时保持直立。这种平衡是一种straddle stability，它使自行车在转弯和不平坦的表面上保持稳定。如果自行车失去了这种稳定性，就可能会倾倒，导致事故发生。在机器人技术的背景下，straddle stability在自主车辆和类人机器人设计中发挥着至关重要的作用。工程师必须确保这些机器在移动和与环境互动时能够保持平衡。例如，设计用于行走的机器人必须具有低重心和宽基座，以实现straddle stability。如果机器人顶部过重或支撑面过窄，它就有可能摔倒，这可能会妨碍其功能和性能。此外，straddle stability在金融市场和经济理论中也可以观察到。在金融领域，该术语描述了一种策略，投资者同时持有多头和空头头寸，以减轻风险并利用市场波动。这种方法确保无论市场如何波动，投资者都能在其投资组合中保持稳定。就像在工程中，保持物理平衡至关重要一样，在金融中，实现straddle stability可以导致更安全的投资结果。总之，straddle stability是一个多方面的概念，跨越多个领域，从工程到金融。其重要性不容小觑，因为它有助于确保结构、车辆和金融策略的安全性、功能性和可靠性。理解和应用straddle stability的原则使专业人士能够创造出不仅有效而且能够抵御外部因素挑战的解决方案。随着我们不断创新和开发新技术，straddle stability的重要性无疑将继续成为成功设计和实施的基石。