transverse center of gravity

简明释义

重心横向坐标

英英释义

例句

1.The design of the vehicle must ensure that the transverse center of gravity 横向重心 is low to improve stability during sharp turns.

车辆的设计必须确保 transverse center of gravity 横向重心 低，以提高在急转弯时的稳定性。

2.To enhance safety, the transverse center of gravity 横向重心 of the boat was adjusted during construction.

为增强安全性，船只在建造过程中调整了 transverse center of gravity 横向重心 。

3.Engineers often analyze the transverse center of gravity 横向重心 when creating new aircraft models to optimize performance.

工程师在创建新飞机模型时，通常会分析 transverse center of gravity 横向重心 以优化性能。

4.A higher transverse center of gravity 横向重心 can lead to a greater risk of rollover in SUVs.

较高的 transverse center of gravity 横向重心 会增加SUV翻车的风险。

5.The stability of a racing car heavily depends on its transverse center of gravity 横向重心 position.

赛车的稳定性在很大程度上取决于其 transverse center of gravity 横向重心 位置。

作文

Understanding the concept of the transverse center of gravity is crucial in various fields, including engineering, physics, and even sports. The transverse center of gravity refers to the point at which the weight of an object is evenly distributed across its width. This concept is essential for ensuring stability and balance in structures and moving objects. For instance, when designing vehicles, engineers must carefully calculate the transverse center of gravity to prevent tipping over during turns. If the center of gravity is too high or too far to one side, the vehicle may become unstable, which can lead to accidents. In the realm of sports, athletes also need to be aware of their transverse center of gravity. Gymnasts, for example, must maintain a low and stable center of gravity to execute flips and land safely. A gymnast's ability to control their transverse center of gravity determines their performance and safety during routines. Similarly, in basketball, players often adjust their stance to lower their transverse center of gravity while dribbling or defending, allowing for better balance and agility.The practical applications of understanding the transverse center of gravity extend to architecture as well. Architects must consider the transverse center of gravity when designing buildings to ensure they can withstand environmental forces such as wind and earthquakes. A building with a well-calculated transverse center of gravity is less likely to sway or collapse during severe weather conditions. Thus, incorporating this knowledge into design processes is vital for creating safe and functional structures.Moreover, the transverse center of gravity plays a significant role in robotics. Engineers designing robots must ensure that their creations have a balanced transverse center of gravity to navigate various terrains effectively. A robot with a poorly positioned transverse center of gravity may struggle to maintain balance, leading to falls or malfunctions. Therefore, understanding and manipulating this concept is key to successful robotic design.In conclusion, the transverse center of gravity is a fundamental principle that impacts many aspects of our lives, from the vehicles we drive to the buildings we inhabit and the sports we play. By mastering this concept, professionals in diverse fields can enhance safety, performance, and functionality. Whether you are an engineer, athlete, architect, or roboticist, recognizing the importance of the transverse center of gravity will undoubtedly contribute to your success and innovation in your respective domain.

理解横向重心的概念在工程、物理甚至体育等多个领域都是至关重要的。横向重心指的是一个物体的重量在其宽度上均匀分布的点。这个概念对于确保结构和运动物体的稳定性和平衡性至关重要。例如，在设计车辆时，工程师必须仔细计算横向重心以防止在转弯时翻倒。如果重心过高或偏向一侧，车辆可能会变得不稳定，从而导致事故。在体育领域，运动员也需要关注他们的横向重心。例如，体操运动员必须保持较低且稳定的重心，以便执行翻转并安全着陆。体操运动员控制横向重心的能力决定了他们在比赛中的表现和安全性。同样，在篮球中，球员常常调整自己的姿势，以在运球或防守时降低横向重心，从而提高平衡性和灵活性。理解横向重心的实际应用还延伸到建筑学。建筑师在设计建筑物时必须考虑横向重心，以确保它们能够抵御风和地震等环境力量。具有良好计算的横向重心的建筑物在恶劣天气条件下不太可能摇摆或倒塌。因此，将这一知识融入设计过程对创建安全和功能齐全的结构至关重要。此外，横向重心在机器人技术中也扮演着重要角色。设计机器人时，工程师必须确保他们的创作具有平衡的横向重心，以有效地导航各种地形。重心位置不当的机器人可能难以保持平衡，导致跌倒或故障。因此，理解和操控这一概念是成功机器人设计的关键。总之，横向重心是一个基本原则，影响着我们生活的许多方面，从我们驾驶的车辆到我们居住的建筑以及我们参与的运动。通过掌握这一概念，各个领域的专业人士可以提高安全性、性能和功能性。无论你是工程师、运动员、建筑师还是机器人专家，认识到横向重心的重要性无疑将为你在各自领域的成功和创新做出贡献。