exit angle

简明释义

去流角

英英释义

例句

1.During the physics experiment, we measured the exit angle of the ball after it hit the surface.

在物理实验中，我们测量了球击中表面后的出角。

2.The exit angle of the projectile was crucial for its landing accuracy.

弹丸的出角对其着陆精度至关重要。

3.The golfer adjusted his swing to achieve the perfect exit angle for a long drive.

高尔夫球手调整了他的挥杆以达到完美的出角，以便打出远距离的击球。

4.In basketball, the exit angle of the ball can determine if it goes in the hoop.

在篮球中，球的出角可以决定它是否能进篮。

5.Engineers calculated the exit angle of the rocket to ensure it reaches the correct orbit.

工程师计算了火箭的出角以确保它达到正确的轨道。

作文

The concept of exit angle is crucial in various fields, particularly in physics and engineering. In simple terms, the exit angle refers to the angle at which an object leaves a surface or a point of origin. Understanding this angle can significantly affect the performance and behavior of objects in motion, whether they are sports balls, vehicles, or even spacecraft. In sports, for example, the exit angle of a baseball after being hit by a bat can determine how far and high the ball will travel. A higher exit angle typically results in a fly ball that soars through the air, while a lower angle may lead to a ground ball. Players and coaches often analyze these angles using technology to improve their game strategy. By optimizing the exit angle, players can increase their chances of hitting home runs or making successful plays.In the field of engineering, the exit angle is equally significant, especially in the design of vehicles and machinery. For instance, when designing cars, engineers must consider the exit angle when determining how steep a hill the vehicle can climb without bottoming out. This angle is calculated based on the vehicle's dimensions and the height of its rear suspension. A well-designed exit angle ensures that the vehicle can navigate rough terrains without damage, enhancing both performance and safety.The importance of the exit angle extends to aerospace engineering as well. When a rocket launches into space, the exit angle at which it exits the Earth's atmosphere is critical for achieving the desired trajectory. Engineers must calculate the optimal exit angle to ensure that the rocket enters orbit successfully. Any miscalculation can result in failure, highlighting the precision required in this field.Moreover, understanding the exit angle is not limited to physical objects; it also applies to various technological applications. For example, in computer graphics and animation, the exit angle can refer to the angle at which light exits a surface, affecting how materials are rendered in a virtual environment. This principle is essential for creating realistic images and animations, where the interaction of light and surfaces must be accurately represented.In conclusion, the concept of exit angle is multifaceted and plays a vital role in numerous disciplines. Whether in sports, engineering, aerospace, or technology, understanding the exit angle allows for better predictions and optimizations of performance. As we continue to explore and innovate in these fields, the significance of the exit angle will undoubtedly remain a key factor in achieving success and efficiency. The interplay of physics and practical application makes the exit angle a fascinating topic worthy of further study and exploration.

“出角”这一概念在多个领域中至关重要，尤其是在物理学和工程学中。简单来说，出角指的是一个物体离开表面或起点时的角度。理解这个角度可以显著影响物体的运动表现和行为，无论是运动中的球、车辆，还是航天器。例如，在体育运动中，一颗棒球在被球棒击中后的出角可以决定球飞行的距离和高度。较高的出角通常会导致飞球在空中翱翔，而较低的角度可能会导致地面球。球员和教练常常使用技术分析这些角度，以改善比赛策略。通过优化出角，球员可以提高击出本垒打或成功完成比赛的机会。在工程领域，出角同样重要，尤其是在车辆和机械的设计中。例如，在设计汽车时，工程师必须考虑出角来确定车辆能在多陡的坡上爬升而不至于底盘刮擦。这个角度是根据车辆的尺寸和后悬挂的高度进行计算的。设计良好的出角确保车辆能够在崎岖的地形中安全行驶，提高了性能和安全性。出角的重要性还延伸到航空航天工程领域。当火箭发射进入太空时，它离开地球大气层的出角对于实现所需轨道至关重要。工程师必须计算最佳的出角以确保火箭成功进入轨道。任何计算错误都可能导致失败，这突显了该领域所需的精确性。此外，理解出角不仅限于物理对象；它也适用于各种技术应用。例如，在计算机图形和动画中，出角可以指光线从表面离开的角度，影响材料在虚拟环境中的渲染效果。这个原理对于创建真实的图像和动画至关重要，其中光与表面的相互作用必须得到准确表示。总之，出角的概念是多方面的，在许多学科中发挥着重要作用。无论是在体育、工程、航空航天还是技术领域，理解出角都有助于更好地预测和优化性能。随着我们在这些领域中不断探索和创新，出角的重要性无疑将继续成为实现成功和效率的关键因素。物理学与实际应用的相互作用使得出角成为一个值得进一步研究和探索的迷人话题。