vertical center of gravity

简明释义

垂直重心

英英释义

例句

1.The design of the sculpture ensures that its vertical center of gravity (垂直重心) is low to prevent it from tipping over.

这座雕塑的设计确保其垂直重心较低，以防止其倾倒。

2.When building a bridge, engineers calculate the vertical center of gravity (垂直重心) to ensure it can support heavy loads.

在建造桥梁时，工程师计算垂直重心以确保它能够承受重载。

3.For the drone to fly smoothly, its vertical center of gravity (垂直重心) must be perfectly balanced.

为了使无人机平稳飞行，其垂直重心必须完美平衡。

4.In racing cars, engineers often adjust the vertical center of gravity (垂直重心) to improve stability during high-speed turns.

在赛车中，工程师们常常调整垂直重心以提高高速转弯时的稳定性。

5.The vertical center of gravity (垂直重心) of a tall building affects its resistance to wind forces.

高楼的垂直重心影响其抵御风力的能力。

作文

The concept of the vertical center of gravity plays a crucial role in various fields, including engineering, physics, and sports. It refers to the point in an object where its weight is evenly distributed in a vertical direction. Understanding this concept can significantly impact the design and functionality of structures, vehicles, and even athletic performance.In engineering, the vertical center of gravity is essential when designing buildings and bridges. Engineers must ensure that the center of gravity is positioned appropriately to maintain stability and prevent collapse. For instance, if a building has a high vertical center of gravity, it may be more prone to tipping over during strong winds or earthquakes. Therefore, architects and engineers often use various techniques to lower the vertical center of gravity, such as widening the base or adding counterweights.In the realm of physics, the vertical center of gravity is vital for understanding motion and balance. When an object is in motion, its vertical center of gravity affects how it interacts with forces such as gravity and friction. For example, a gymnast performing on a balance beam must maintain her vertical center of gravity within her base of support to avoid falling. A slight shift can lead to a loss of balance, demonstrating the importance of this concept in dynamic situations.Sports also heavily rely on the understanding of the vertical center of gravity. Athletes often train to optimize their body positioning to enhance performance. For example, a high jumper aims to position their vertical center of gravity as low as possible during the takeoff phase to maximize height clearance. By understanding how to manipulate their vertical center of gravity, athletes can improve their technique and achieve better results.Moreover, the vertical center of gravity is not limited to physical objects; it also applies to human movements. Dancers, for instance, must be acutely aware of their vertical center of gravity to execute complex routines gracefully. A dancer's ability to control their vertical center of gravity allows them to perform leaps and turns with precision, showcasing the significance of this concept in artistic expression.In conclusion, the vertical center of gravity is a fundamental principle that influences various aspects of our lives, from architecture to athletics. By comprehending how the vertical center of gravity works, individuals in different fields can enhance their designs, improve performance, and ensure safety. The awareness of this concept not only aids in achieving practical outcomes but also enriches our understanding of balance and stability in both the physical and metaphorical sense. As we continue to explore the implications of the vertical center of gravity, it becomes clear that this concept is integral to our interaction with the world around us.

“垂直重心”这一概念在工程、物理和体育等多个领域中发挥着重要作用。它指的是一个物体在垂直方向上重量均匀分布的点。理解这一概念可以显著影响结构、车辆甚至运动表现的设计和功能。在工程学中，“垂直重心”对于建筑和桥梁的设计至关重要。工程师必须确保重心的位置适当，以维持稳定性并防止坍塌。例如，如果一栋建筑的“垂直重心”较高，那么在强风或地震期间，它可能更容易倾倒。因此，建筑师和工程师常常采用各种技术来降低“垂直重心”，例如加宽基础或增加配重。在物理学领域，“垂直重心”对于理解运动和平衡至关重要。当一个物体在运动时，其“垂直重心”会影响它与重力和摩擦等力的相互作用。例如，一个在平衡木上表演的体操运动员必须保持她的“垂直重心”在支撑面内，以避免摔倒。稍微的偏移就可能导致失去平衡，这展示了这一概念在动态情况下的重要性。体育运动也在很大程度上依赖于对“垂直重心”的理解。运动员常常训练以优化身体姿势，从而提升表现。例如，高跳运动员旨在在起跳阶段将其“垂直重心”尽量降低，以最大化高度。通过理解如何操控自己的“垂直重心”，运动员能够改善技术，取得更好的成绩。此外，“垂直重心”不仅限于物理物体，它也适用于人类运动。舞者，例如，必须对自己的“垂直重心”有清晰的认识，以优雅地执行复杂的舞蹈动作。舞者控制“垂直重心”的能力使他们能够精确地完成跳跃和旋转，展示了这一概念在艺术表现中的重要性。总之，“垂直重心”是一个基本原理，影响着我们生活的各个方面，从建筑到运动。通过理解“垂直重心”的运作方式，不同领域的人们可以增强他们的设计、提高表现并确保安全。对这一概念的意识不仅有助于实现实际结果，还丰富了我们对物理和隐喻意义上平衡和稳定性的理解。随着我们继续探索“垂直重心”的影响，这一概念在我们与周围世界的互动中变得愈发重要。