horizontal range

简明释义

水平距离

英英释义

例句

1.To optimize the network coverage, we need to analyze the horizontal range 水平范围 of the antennas.

为了优化网络覆盖，我们需要分析天线的horizontal range 水平范围。

2.The engineer calculated the horizontal range 水平范围 of the projectile to ensure it would hit the target.

工程师计算了弹丸的horizontal range 水平范围以确保它能击中目标。

3.In golf, the horizontal range 水平范围 of a drive can significantly affect your score.

在高尔夫球中，开球的horizontal range 水平范围可以显著影响你的得分。

4.The drone's horizontal range 水平范围 is impressive, allowing it to cover vast areas in a single flight.

这款无人机的horizontal range 水平范围令人印象深刻，能够在一次飞行中覆盖广阔的区域。

5.The horizontal range 水平范围 of this new model of car is better than its predecessor.

这款新车型的horizontal range 水平范围比其前身更好。

作文

In the field of physics, particularly in projectile motion, the concept of horizontal range plays a crucial role in understanding how objects behave when they are launched into the air. The horizontal range refers to the maximum distance that a projectile can travel along the horizontal axis before it hits the ground. This concept is essential for various applications, from sports to engineering. For instance, when a basketball player shoots a ball towards the hoop, the angle and speed at which the ball is thrown will determine its horizontal range. A perfectly executed shot requires a deep understanding of the factors that influence this range, such as initial velocity, launch angle, and air resistance.To better grasp the significance of horizontal range, let’s consider an example involving a cannonball. When a cannon is fired, the angle at which the cannonball is launched significantly affects its trajectory. If the cannonball is fired at an angle of 45 degrees, it achieves the maximum horizontal range under ideal conditions, meaning it will travel the furthest distance before landing. However, if the angle is too steep or too shallow, the horizontal range will decrease, resulting in a shorter distance traveled.Moreover, the horizontal range is not only influenced by the angle of projection but also by the initial speed of the projectile. A higher initial speed increases the horizontal range because the projectile has more kinetic energy to overcome gravitational forces. Therefore, engineers and scientists often conduct experiments to find the optimal conditions for achieving the greatest horizontal range for various projectiles, whether they are sports equipment or military artillery.In addition to its practical applications, the horizontal range concept serves as an excellent educational tool for students learning about physics. By experimenting with different angles and speeds, students can visualize and calculate the horizontal range of various projectiles. This hands-on approach not only solidifies theoretical knowledge but also enhances critical thinking and problem-solving skills.Furthermore, the horizontal range has implications beyond just physics. It can be applied in fields such as environmental science, where understanding the spread of pollutants or seeds can be modeled using principles of projectile motion. In this context, knowing the horizontal range helps researchers predict how far a substance might travel in the air or water, which is vital for effective environmental management.In conclusion, the concept of horizontal range is fundamental to understanding the behavior of projectiles in motion. Whether in sports, engineering, or environmental science, knowing how to maximize the horizontal range can lead to improved performance and outcomes. As we continue to explore the laws of physics, the horizontal range will remain a significant topic of interest, illustrating the intricate relationship between angles, speeds, and distances in our world. Understanding this concept not only enhances our comprehension of physics but also equips us with the knowledge to apply these principles in real-life scenarios, making it an invaluable part of our education and practical experiences.

在物理学领域，尤其是在抛体运动中，水平射程的概念在理解物体被发射到空中时的行为方面起着至关重要的作用。水平射程指的是一个抛体在落地之前沿水平方向上能达到的最大距离。这个概念对于从体育到工程等各种应用都是至关重要的。例如，当一名篮球运动员向篮筐投球时，球的发射角度和速度将决定它的水平射程。一个完美的投篮需要深入理解影响这一范围的因素，如初始速度、发射角度和空气阻力。为了更好地理解水平射程的重要性，让我们考虑一个涉及炮弹的例子。当一门大炮发射时，炮弹发射的角度显著影响其轨迹。如果炮弹以45度的角度发射，在理想条件下，它将达到最大的水平射程，这意味着它将在落地之前行进最远的距离。然而，如果角度过陡或过平，水平射程将会减少，导致行进的距离变短。此外，水平射程不仅受到发射角度的影响，还受到抛体初始速度的影响。更高的初始速度增加了水平射程，因为抛体有更多的动能来克服重力。因此，工程师和科学家常常进行实验，以寻找实现各种抛体最大水平射程的最佳条件，无论是体育器材还是军事炮火。除了实际应用之外，水平射程的概念还为学习物理的学生提供了极好的教育工具。通过实验不同的角度和速度，学生可以直观地计算各种抛体的水平射程。这种实践方法不仅巩固了理论知识，还增强了批判性思维和解决问题的能力。此外，水平射程在其他领域也有重要意义。例如，在环境科学中，了解污染物或种子的传播可以使用抛体运动的原理进行建模。在这种情况下，了解水平射程有助于研究人员预测某种物质在空气或水中可能传播的距离，这对于有效的环境管理至关重要。总之，水平射程的概念是理解抛体运动行为的基础。无论是在体育、工程还是环境科学中，知道如何最大化水平射程可以带来更好的表现和结果。随着我们继续探索物理法则，水平射程将始终是一个重要的研究主题，展示了我们世界中角度、速度和距离之间的复杂关系。理解这一概念不仅增强了我们对物理的理解，也使我们具备将这些原理应用于现实场景的知识，使其成为我们教育和实践经验中不可或缺的一部分。