pressure of wind

简明释义

风压

英英释义

例句

1.The pressure of wind 风压 on the sails increased as the boat picked up speed.

当船只提速时，帆上的压力风 风压增加。

2.The pressure of wind 风压 can cause significant damage to trees during a hurricane.

在飓风期间，压力风 风压可能对树木造成重大损害。

3.Engineers use sensors to measure the pressure of wind 风压 on bridges.

工程师使用传感器来测量桥梁上的压力风 风压。

4.The engineer calculated the pressure of wind 风压 on the building to ensure it could withstand storms.

工程师计算了建筑物上的压力风 风压，以确保它能抵御风暴。

5.During the flight, the pilot monitored the pressure of wind 风压 to adjust the altitude accordingly.

在飞行过程中，飞行员监测压力风 风压以相应地调整高度。

作文

The phenomenon of the pressure of wind is an essential aspect of meteorology and plays a significant role in our daily lives. Understanding how this pressure works can help us make better decisions regarding weather-related activities, from planning a picnic to preparing for a storm. The pressure of wind refers to the force exerted by moving air on a surface, which can vary based on several factors, including temperature, humidity, and altitude.When we talk about the pressure of wind, we are often referring to the differences in atmospheric pressure that cause air to move from high-pressure areas to low-pressure areas. This movement of air is what we perceive as wind. For instance, when a cold front moves into a region, it creates a zone of high pressure behind it. The warm air ahead of the cold front has lower pressure, and as a result, the wind begins to blow from the high-pressure area to the low-pressure area, creating gusty winds.The pressure of wind is not only important for understanding weather patterns but also for various applications in engineering and architecture. For example, the design of buildings must consider the forces exerted by wind. Engineers use the concept of pressure of wind to ensure that structures can withstand strong winds during storms or hurricanes. They calculate the expected wind pressures on buildings and incorporate features such as reinforced walls and aerodynamic shapes to minimize damage.In addition, the pressure of wind is crucial for aviation. Pilots receive detailed information about wind conditions, including wind speed and direction, which are essential for takeoff, navigation, and landing. A strong headwind can slow down an aircraft, while a tailwind can increase its speed. Understanding the pressure of wind helps pilots make informed decisions to ensure passenger safety and efficient flight operations.Moreover, the pressure of wind influences various natural phenomena, such as ocean currents and the formation of clouds. Wind patterns, driven by differences in atmospheric pressure, play a vital role in distributing heat around the planet, which affects climate and weather systems. For example, trade winds in tropical regions contribute to the development of tropical storms and hurricanes, which can have devastating impacts on coastal communities.On a smaller scale, the pressure of wind also affects outdoor activities and sports. For instance, in sailing, understanding the pressure of wind allows sailors to optimize their sails for maximum propulsion. Similarly, in sports like golf or baseball, players must consider wind conditions when making their shots or throws.In conclusion, the pressure of wind is a fundamental concept that influences a wide range of activities and natural processes. From weather forecasting to engineering, aviation, and outdoor sports, understanding the pressure of wind can enhance our ability to navigate the world around us. As we continue to study and understand the complexities of wind pressure, we can better prepare for the challenges it presents and leverage its power for various applications. By appreciating the significance of the pressure of wind, we can gain deeper insights into both nature and technology, ultimately improving our quality of life.

“风压”这一现象是气象学的一个基本方面，在我们的日常生活中发挥着重要作用。理解这种压力的工作原理可以帮助我们在与天气相关的活动中做出更好的决策，从计划野餐到准备暴风雨。“风压”指的是移动空气对表面施加的力，这种力会根据温度、湿度和海拔等多个因素而变化。当我们谈论“风压”时，通常是指大气压力差异造成的空气从高压区流向低压区的现象。这种空气的运动就是我们所感知到的风。例如，当冷锋进入一个地区时，它在后面创造了一个高压区域。冷锋前面的暖空气压力较低，因此风开始从高压区吹向低压区，形成阵风。“风压”不仅对理解天气模式很重要，而且在工程和建筑的各种应用中也至关重要。例如，建筑设计必须考虑风施加的力量。工程师利用“风压”的概念来确保结构能够承受强风带来的影响，尤其是在暴风雨或飓风期间。他们计算建筑物上预期的风压，并结合强化墙体和空气动力学形状等特征，以减少损坏。此外，“风压”对航空业也至关重要。飞行员会收到关于风速和方向的详细信息，这些信息对于起飞、导航和着陆至关重要。强劲的逆风会减慢飞机速度，而顺风则会增加其速度。理解“风压”帮助飞行员做出明智的决策，以确保乘客安全和高效的飞行操作。此外，“风压”还影响各种自然现象，例如海洋洋流和云的形成。由大气压力差驱动的风模式在热量分布上起着至关重要的作用，这影响气候和天气系统。例如，热带地区的信风有助于热带风暴和飓风的发展，这可能对沿海社区造成毁灭性的影响。在小范围内，“风压”还会影响户外活动和运动。例如，在帆船运动中，理解“风压”使水手能够优化他们的帆以获得最大的推进力。同样，在高尔夫或棒球等运动中，运动员在击球或投掷时也必须考虑风的条件。总之，“风压”是一个基本概念，影响着各种活动和自然过程。从天气预报到工程、航空和户外运动，理解“风压”可以增强我们应对周围世界的能力。随着我们继续研究和理解风压的复杂性，我们可以更好地为它带来的挑战做好准备，并利用其力量进行各种应用。通过欣赏“风压”的重要性，我们可以深入了解自然和技术，最终改善我们的生活质量。