axial angle

简明释义

1. 光轴角; 2. 轴角; 3. 顶轴角;

英英释义

例句

1.The axial angle 轴角 in the mechanical assembly determines how parts align with each other.

机械装配中的轴角 轴角 决定了各部件之间的对齐方式。

2.In robotics, adjusting the axial angle 轴角 can improve the range of motion.

在机器人技术中，调整轴角 轴角 可以改善运动范围。

3.The axial angle 轴角 of the turbine blades affects the efficiency of energy conversion.

涡轮叶片的轴角 轴角 影响能量转换的效率。

4.When designing the structure, engineers must consider the axial angle 轴角 to ensure stability.

在设计结构时，工程师必须考虑轴角 轴角 以确保稳定性。

5.In a cylindrical coordinate system, the axial angle 轴角 is crucial for determining the position of points.

在圆柱坐标系统中，轴角 轴角 对于确定点的位置至关重要。

作文

In the field of geometry and physics, the term axial angle refers to the angle formed between two lines or planes that are oriented around a common axis. Understanding the concept of axial angle is crucial for various applications, including engineering, architecture, and even in the study of molecular structures in chemistry. The significance of this angle becomes particularly evident when analyzing the rotational symmetry of objects and the forces acting upon them.For instance, consider a cylinder. The axial angle can be defined as the angle between the axis of the cylinder and a line drawn from one point on the surface of the cylinder to another point on the surface. This angle plays a vital role in determining how the cylinder will behave under different loading conditions. Engineers need to calculate the axial angle to ensure stability and strength in their designs.In architecture, the axial angle helps architects understand how light interacts with buildings. By analyzing the axial angle of windows and walls, architects can optimize natural lighting within a space, creating comfortable and energy-efficient environments. For instance, a well-placed window with the correct axial angle can minimize glare while maximizing daylight, thus enhancing the overall aesthetic and functionality of a building.Moreover, in molecular chemistry, the axial angle is essential for understanding the spatial arrangement of atoms within a molecule. The relative positions of bonds and atoms can significantly influence a molecule's properties and reactivity. For example, in certain organic compounds, the axial angle between bonds can determine whether a molecule is stable or prone to reactions. Chemists often use models and simulations to visualize these angles, allowing them to predict molecular behavior more accurately.The importance of the axial angle extends beyond theoretical applications; it also has practical implications in everyday life. From the design of mechanical parts to the configuration of electronic devices, engineers frequently encounter scenarios where the axial angle must be calculated and optimized. A slight variation in this angle can lead to significant changes in performance, efficiency, and durability.To summarize, the concept of the axial angle is a fundamental aspect of various scientific and engineering disciplines. Its applications range from ensuring structural integrity in buildings to understanding the complexities of molecular interactions. As technology continues to advance, the relevance of the axial angle will likely grow, making it an essential topic for students and professionals alike to master. Therefore, gaining a thorough understanding of the axial angle not only enhances academic knowledge but also equips individuals with the skills necessary to tackle real-world challenges in their respective fields.

在几何和物理学领域，术语axial angle指的是围绕共同轴线定向的两条线或平面之间形成的角度。理解axial angle的概念对于工程、建筑甚至化学中分子结构的研究等各种应用至关重要。这个角度的重要性在分析物体的旋转对称性及其所受的力时尤为明显。例如，考虑一个圆柱体。axial angle可以定义为圆柱体轴线与从圆柱体表面上的一点画到另一点的线之间的角度。这个角度在确定圆柱体在不同载荷条件下的行为中起着至关重要的作用。工程师需要计算axial angle以确保设计的稳定性和强度。在建筑学中，axial angle帮助建筑师理解光线如何与建筑物相互作用。通过分析窗户和墙壁的axial angle，建筑师可以优化空间内的自然采光，创造舒适和节能的环境。例如，一个正确放置的窗户，具有合适的axial angle，可以最大限度地减少眩光，同时最大化日光，从而增强建筑的整体美感和功能性。此外，在分子化学中，axial angle对于理解分子内原子的空间排列至关重要。键和原子的相对位置可以显著影响分子的性质和反应性。例如，在某些有机化合物中，键之间的axial angle可以决定分子是稳定还是容易发生反应。化学家经常使用模型和模拟来可视化这些角度，从而更准确地预测分子行为。axial angle的重要性不仅限于理论应用；它在日常生活中也有实际意义。从机械零件的设计到电子设备的配置，工程师经常遇到必须计算和优化axial angle的场景。这个角度的微小变化可能导致性能、效率和耐久性的重大变化。总之，axial angle的概念是各种科学和工程学科的基本方面。它的应用范围从确保建筑物的结构完整性到理解分子相互作用的复杂性。随着技术的不断进步，axial angle的相关性可能会增加，使其成为学生和专业人士掌握的重要主题。因此，深入理解axial angle不仅增强了学术知识，还使个人具备了应对各自领域现实挑战的必要技能。