distributed mass

简明释义

分布质量

英英释义

例句

1.In structural design, understanding the distributed mass helps in optimizing material usage.

在结构设计中，理解分布质量有助于优化材料使用。

2.The team used software to simulate the effects of distributed mass in the new aircraft design.

团队使用软件模拟了新飞机设计中分布质量的影响。

3.The engineer calculated the effect of the distributed mass on the bridge's stability during an earthquake.

工程师计算了在地震期间，分布质量对桥梁稳定性的影响。

4.When analyzing vibrations, the distributed mass can significantly influence the system's response.

在分析振动时，分布质量可以显著影响系统的响应。

5.The distributed mass of the roof was a critical factor in the building's overall load calculations.

屋顶的分布质量是建筑整体负载计算中的一个关键因素。

作文

The concept of distributed mass refers to the way in which mass is spread out over a particular area or volume, rather than being concentrated in a single point. This idea is crucial in various fields such as physics, engineering, and architecture. Understanding distributed mass allows us to analyze the behavior of structures under different forces and conditions. For instance, when designing a bridge, engineers must consider how the weight of vehicles and pedestrians will be distributed across the structure. If the mass were concentrated at one point, it could lead to structural failure due to excessive stress. Instead, by ensuring that the mass is distributed evenly, the bridge can support more weight and remain stable.In the realm of physics, the concept of distributed mass is vital for understanding gravitational forces. For example, planets and celestial bodies do not have their mass concentrated at a single point; rather, their mass is distributed throughout their volume. This distribution affects how they interact with other objects in space. The gravitational pull of a planet is not only determined by its total mass but also by how that mass is distributed in relation to other bodies. This understanding helps scientists predict the movements of planets, moons, and satellites.Moreover, in the field of architecture, the principle of distributed mass plays a significant role in creating safe and aesthetically pleasing buildings. Architects must think about how the mass of materials used in construction will affect the overall stability of a building. By carefully planning the distribution of mass, architects can create structures that are not only visually appealing but also resilient against environmental forces such as wind and earthquakes. For instance, a skyscraper with a distributed mass design will be able to withstand lateral forces better than one where the mass is concentrated at the top.In addition to these practical applications, the idea of distributed mass can also be seen in everyday life. Consider a simple example of carrying a heavy backpack. If all the weight is concentrated in one small area, it becomes difficult to carry. However, if the weight is distributed evenly across your back, it feels lighter and is easier to manage. This principle can be applied to various scenarios, from sports equipment design to ergonomic furniture.In conclusion, the concept of distributed mass is essential in multiple disciplines, influencing everything from the design of infrastructures to our understanding of the universe. By recognizing how mass can be distributed, we can create safer, more efficient, and more functional designs in engineering and architecture. Whether we are looking at the vastness of space or the items we use in our daily lives, the distribution of mass plays a crucial role in how we interact with the world around us.

“分布质量”这一概念指的是质量在特定区域或体积上的分散方式，而不是集中在一个点上。这个理念在物理学、工程学和建筑学等多个领域中至关重要。理解“分布质量”使我们能够分析结构在不同力和条件下的行为。例如，在设计桥梁时，工程师必须考虑车辆和行人重量如何在结构上分布。如果质量集中在一个点上，可能会由于过大的压力导致结构失效。相反，通过确保质量均匀“分布”，桥梁可以承受更多的重量并保持稳定。在物理学领域，“分布质量”的概念对于理解引力至关重要。例如，行星和天体的质量并不是集中在一个点上；而是分布在它们的体积中。这种分布影响着它们与其他物体在空间中的相互作用。行星的引力不仅由其总质量决定，还取决于该质量与其他天体的相对“分布”。这种理解帮助科学家预测行星、卫星和月球的运动。此外，在建筑领域，“分布质量”的原则在创建安全且美观的建筑中发挥了重要作用。建筑师必须考虑所用材料的质量如何影响建筑的整体稳定性。通过仔细规划质量的分布，建筑师可以创建不仅视觉上吸引人，而且能够抵御环境力量（如风和地震）的结构。例如，采用“分布质量”设计的摩天大楼将比顶部质量集中设计的摩天大楼更能抵御侧向力量。除了这些实际应用，“分布质量”的理念也可以在日常生活中看到。考虑一个简单的例子：背负重背包。如果所有的重量集中在一个小区域，携带起来就会变得困难。然而，如果重量均匀“分布”在背部，它就显得更轻，更容易管理。这个原则可以应用于各种场景，从运动器材设计到符合人体工程学的家具。总之，“分布质量”的概念在多个学科中至关重要，影响着从基础设施设计到我们理解宇宙的一切。通过认识到质量可以被“分布”，我们可以在工程和建筑中创造出更加安全、高效和功能性的设计。无论我们是在观察浩瀚的宇宙，还是在使用日常生活中的物品，质量的分布在我们与周围世界的互动中扮演着关键角色。