transverse system

简明释义

横框结构式

英英释义

例句

1.In anatomy, the transverse system refers to structures that run perpendicular to the body's longitudinal axis.

在解剖学中，横向系统指的是与身体纵轴垂直的结构。

2.The transverse system in this model allows for better load distribution across the structure.

该模型中的横向系统允许更好的负载分布。

3.The engineer designed a new transverse system to improve the stability of the bridge.

工程师设计了一种新的横向系统以提高桥梁的稳定性。

4.The transverse system of the railway tracks ensures trains can travel safely at high speeds.

铁路轨道的横向系统确保火车能够安全地以高速行驶。

5.Researchers are studying the transverse system of the nervous system to understand how signals are transmitted.

研究人员正在研究神经系统的横向系统以了解信号是如何传递的。

作文

In the study of various fields such as biology, engineering, and physics, the concept of a transverse system plays a crucial role in understanding how different components interact with one another. A transverse system can be defined as a structure or mechanism that operates across multiple dimensions, allowing for the transfer of forces or information in a direction that is perpendicular to the primary axis of the system. This characteristic is essential in many applications, from the design of bridges to the functioning of biological organisms. For instance, in the field of biology, the human skeletal system can be viewed as a transverse system. The bones are arranged in such a way that they provide support and leverage for movement, allowing muscles to exert force in various directions. This arrangement enables the body to perform complex movements, such as running, jumping, and lifting. The transverse nature of the skeletal system ensures that forces are distributed evenly, minimizing the risk of injury and maximizing efficiency.In engineering, the concept of a transverse system is vital when designing structures that need to withstand various loads. For example, consider the design of a bridge. Engineers must account for the forces acting on the bridge from above (such as vehicles and pedestrians) as well as lateral forces (such as wind). A well-designed bridge incorporates transverse systems within its architecture to distribute these forces effectively, ensuring stability and safety. By using materials that can handle tension and compression in multiple directions, engineers create a robust structure that can endure environmental stresses.Moreover, in physics, the transverse system is often discussed in the context of wave propagation. Transverse waves, such as those seen in water or electromagnetic radiation, move perpendicular to the direction of energy transfer. Understanding this principle is essential for various applications, including telecommunications and acoustics. For instance, radio waves travel as transverse waves, allowing for the transmission of signals over vast distances. This understanding of transverse systems facilitates advancements in technology and communication.In conclusion, the concept of a transverse system is integral across multiple disciplines. Whether we are examining the human body, engineering structures, or exploring the nature of waves, the principles underlying transverse systems help us understand and innovate within our environments. By recognizing the importance of these systems, we can better appreciate the complexities of the world around us and apply this knowledge to improve our designs, enhance our health, and advance our technologies. As we continue to explore and learn, the relevance of transverse systems will undoubtedly remain a focal point in our quest for knowledge and progress.

在生物学、工程学和物理学等多个领域的研究中，transverse system（横向系统）的概念在理解不同组件如何相互作用方面发挥着至关重要的作用。transverse system可以定义为一种在多个维度上运行的结构或机制，允许在系统的主要轴线垂直方向上传递力量或信息。这一特性在许多应用中至关重要，从桥梁设计到生物有机体的功能。例如，在生物学领域，人类骨骼系统可以被视为一个transverse system。骨骼以一种方式排列，为运动提供支持和杠杆，使肌肉能够在各个方向施加力量。这种排列使得身体能够执行复杂的动作，如跑步、跳跃和举重。骨骼系统的横向特性确保力量均匀分配，最大限度地降低受伤风险并提高效率。在工程学中，transverse system的概念在设计需要承受各种负载的结构时至关重要。例如，考虑桥梁的设计。工程师必须考虑来自上方的力量（如车辆和行人）以及横向力量（如风）。设计良好的桥梁在其建筑中融入了transverse systems，以有效分配这些力量，确保稳定性和安全性。通过使用能够承受多方向拉伸和压缩的材料，工程师创建出坚固的结构，能够承受环境压力。此外，在物理学中，transverse system常常在波传播的背景下进行讨论。横波，例如水波或电磁辐射，以垂直于能量传输方向的方式移动。理解这一原理对各种应用至关重要，包括电信和声学。例如，无线电波作为横波传播，使得信号能够在广阔的距离上进行传输。对transverse systems的理解促进了技术和通信的进步。总之，transverse system的概念在多个学科中都是不可或缺的。无论我们是在研究人体、设计结构，还是探讨波的性质，支撑transverse systems的原理帮助我们理解和创新我们的环境。通过认识到这些系统的重要性，我们可以更好地欣赏周围世界的复杂性，并将这种知识应用于改善我们的设计、增强我们的健康和推动我们的技术。随着我们不断探索和学习，transverse systems的相关性无疑将继续成为我们追求知识和进步的焦点。