angle of deflection

简明释义

偏转角

英英释义

例句

1.In the physics lab, we measured the angle of deflection 偏转角 of a light beam passing through a prism.

在物理实验室，我们测量了光束通过棱镜时的偏转角 angle of deflection。

2.The engineer calculated the angle of deflection 偏转角 to ensure the bridge could withstand high winds.

工程师计算了偏转角 angle of deflection以确保桥梁能够承受强风。

3.To improve the design, the architect adjusted the angle of deflection 偏转角 of the roof structure.

为了改善设计，建筑师调整了屋顶结构的偏转角 angle of deflection。

4.The angle of deflection 偏转角 in the trajectory of the projectile was crucial for accurate targeting.

弹道中的偏转角 angle of deflection对于精确瞄准至关重要。

5.The sports scientist studied the angle of deflection 偏转角 of a soccer ball after being kicked.

运动科学家研究了足球被踢后产生的偏转角 angle of deflection。

作文

The concept of the angle of deflection is crucial in various fields, including physics, engineering, and even sports. It refers to the angle at which an object deviates from its original path due to external forces acting upon it. Understanding this principle can help us analyze the motion of objects and improve our designs and strategies. For instance, when a soccer player kicks a ball, the angle of deflection determines how far and in what direction the ball will travel after it strikes another object, such as a defender or the goalpost.In physics, the angle of deflection plays a significant role in understanding projectile motion. When a projectile is launched, it follows a curved path influenced by gravity and air resistance. The angle at which it deflects from its intended trajectory can be calculated using various equations of motion. This knowledge allows engineers to design more efficient vehicles and structures that can withstand external forces, such as wind or earthquakes.In engineering, particularly in structural analysis, the angle of deflection is a critical factor in ensuring safety and stability. Engineers must calculate the deflection of beams, bridges, and other structures under load to ensure they can support the weight without collapsing. A structure that deflects too much may not only be unsafe but also uncomfortable for users. Therefore, understanding and calculating the angle of deflection is essential for creating reliable and safe designs.Moreover, in the realm of sports, the angle of deflection can significantly impact performance. Athletes often study the angles at which balls bounce or deflect off surfaces to improve their gameplay. For example, in basketball, understanding the angle of deflection when shooting can help players make better shots by knowing how to adjust their aim based on the position of defenders and the hoop.In conclusion, the angle of deflection is a fundamental concept that extends beyond theoretical applications. It has practical implications in various domains, from designing safer structures to enhancing athletic performance. By grasping the significance of the angle of deflection, individuals can apply this knowledge to solve real-world problems and improve outcomes in their respective fields. Whether it is through engineering innovations or sports strategies, the understanding of how objects deviate from their paths can lead to greater achievements and advancements in technology and performance.

“偏转角度”这一概念在物理学、工程学甚至体育等多个领域中至关重要。它指的是由于外部力量作用于物体，导致物体偏离其原始路径的角度。理解这一原理可以帮助我们分析物体的运动并改善我们的设计和策略。例如，当足球运动员踢球时，“偏转角度”决定了球在撞击另一个物体（如防守者或球门柱）后将行驶多远以及朝哪个方向。在物理学中，“偏转角度”在理解抛体运动方面发挥着重要作用。当抛射物被发射时，它沿着一条受重力和空气阻力影响的曲线轨迹移动。它从预定轨迹偏转的角度可以通过各种运动方程进行计算。这一知识使工程师能够设计出更高效的车辆和结构，以承受外部力量，例如风或地震。在工程学，特别是在结构分析中，“偏转角度”是确保安全和稳定的关键因素。工程师必须计算梁、桥和其他结构在载荷下的偏转，以确保它们能够承受重量而不坍塌。过大的偏转可能不仅不安全，还会给使用者带来不适。因此，理解和计算“偏转角度”对于创建可靠且安全的设计至关重要。此外，在体育领域，“偏转角度”对表现有显著影响。运动员通常研究球在表面上反弹或偏转的角度，以提高他们的比赛水平。例如，在篮球中，理解“偏转角度”在投篮时可以帮助球员通过了解如何根据防守者和篮筐的位置调整瞄准来打出更好的投篮。总之，“偏转角度”是一个基本概念，超越了理论应用。它在各个领域具有实际意义，从设计更安全的结构到提升运动表现。通过掌握“偏转角度”的重要性，个人可以将这一知识应用于解决现实问题，并改善各自领域的结果。无论是通过工程创新还是体育策略，理解物体如何偏离其路径都能带来更大的成就和技术及表现的进步。