beam space

简明释义

梁的间距

英英释义

例句

1.In our new communication system, we can adjust the beam space for optimal signal strength.

在我们的新通信系统中，我们可以调整波束空间以获得最佳信号强度。

2.The conference room was equipped with technology that allows for dynamic adjustment of the beam space during presentations.

会议室配备了技术，可以在演示期间动态调整波束空间。

3.The satellite was designed to cover a large beam space for global internet access.

该卫星旨在覆盖一个广泛的波束空间以实现全球互联网接入。

4.The data was transmitted over a wide beam space to ensure better connectivity.

数据通过广泛的波束空间进行传输，以确保更好的连接性。

5.Engineers are experimenting with different beam spaces to improve the performance of the radar system.

工程师们正在尝试不同的波束空间以改善雷达系统的性能。

作文

In the realm of physics and engineering, the concept of beam space (梁空间) plays a crucial role in understanding the behavior of structures under various loads. When we think about buildings, bridges, or any infrastructure, we often overlook the complexity involved in ensuring that these structures are safe and functional. The term beam space refers to a mathematical representation that simplifies the analysis of beams and their interactions with forces acting upon them.When engineers design a structure, they must consider how different forces will affect each component. Beams are horizontal or sloped structural elements that carry loads from above and distribute them to vertical supports. The beam space allows engineers to visualize and calculate the effects of these loads in a more manageable way. By transforming the physical properties of beams into a 'space' defined by certain parameters, engineers can apply various mathematical techniques to predict how the beams will behave under stress.One of the key advantages of using beam space is that it simplifies complex calculations. Instead of analyzing every individual beam in a structure separately, engineers can use this concept to create a model that represents multiple beams at once. This not only saves time but also reduces the potential for errors in calculations. For instance, when designing a bridge, engineers can utilize beam space to determine how the weight of vehicles will be distributed across the structure, ensuring that each beam can support the necessary loads without compromising safety.Moreover, the application of beam space extends beyond just static loads. In dynamic situations, such as during an earthquake or strong winds, the forces acting on a structure can change rapidly. Engineers use beam space to analyze these dynamic loads, allowing them to design structures that can withstand unexpected stresses. By incorporating this concept into their designs, engineers can enhance the resilience of buildings and bridges, ultimately protecting lives and property.Additionally, modern technology has further advanced the use of beam space. With the advent of computer-aided design (CAD) software and finite element analysis (FEA), engineers can create highly detailed models that incorporate the principles of beam space. These tools enable engineers to simulate how different materials and designs will perform under various conditions, providing a level of precision that was previously unattainable. As a result, structures can be designed more efficiently and safely, leading to improved overall performance.In conclusion, the concept of beam space (梁空间) is essential for engineers working in the field of structural design. It simplifies complex calculations, enhances safety, and allows for innovative designs that can withstand both static and dynamic loads. As our understanding of materials and engineering principles continues to evolve, the importance of beam space will only grow, paving the way for safer and more resilient structures in the future. Whether it's a skyscraper piercing the skyline or a humble bridge spanning a river, the principles of beam space are at work, supporting the infrastructure that shapes our world.

在物理和工程领域，beam space（梁空间）的概念在理解结构在各种载荷下的行为中发挥着至关重要的作用。当我们想到建筑、桥梁或任何基础设施时，我们常常忽视确保这些结构安全且功能正常所涉及的复杂性。术语beam space指的是一种数学表示法，它简化了对梁及其与施加在其上的力相互作用的分析。当工程师设计结构时，他们必须考虑不同的力将如何影响每个组件。梁是承载上方载荷并将其分配给垂直支撑的水平或倾斜结构元素。beam space允许工程师可视化并计算这些载荷的影响，以更可管理的方式。通过将梁的物理属性转化为由某些参数定义的“空间”，工程师可以应用各种数学技术来预测梁在应力下的行为。使用beam space的一个主要优势是它简化了复杂的计算。工程师不必单独分析结构中的每根梁，而是可以利用这个概念创建一个表示多个梁的模型。这不仅节省了时间，而且减少了计算错误的可能性。例如，在设计桥梁时，工程师可以利用beam space来确定车辆的重量将如何分布在结构上，从而确保每根梁都能承受必要的载荷而不影响安全。此外，beam space的应用超出了静态载荷。在动态情况下，例如在地震或强风期间，作用于结构的力可能会迅速变化。工程师使用beam space来分析这些动态载荷，使他们能够设计能够承受意外应力的结构。通过将这一概念纳入设计中，工程师可以增强建筑和桥梁的韧性，最终保护生命和财产。此外，现代技术进一步推动了beam space的使用。随着计算机辅助设计（CAD）软件和有限元分析（FEA）的出现，工程师可以创建高度详细的模型，结合beam space的原理。这些工具使工程师能够模拟不同材料和设计在各种条件下的表现，提供了以前无法实现的精确度。因此，结构可以更高效、安全地设计，从而提高整体性能。总之，beam space（梁空间）的概念对于从事结构设计的工程师至关重要。它简化了复杂的计算，增强了安全性，并允许创新设计能够承受静态和动态载荷。随着我们对材料和工程原理的理解不断发展，beam space的重要性只会增长，为未来更安全、更具韧性的结构铺平道路。无论是刺破天际的摩天大楼还是跨越河流的谦逊桥梁，beam space的原理都在发挥作用，支撑着塑造我们世界的基础设施。