air resistance

air resistance的音标是[ˌeə ˈreʃəns]，基本翻译是空气阻力。速记技巧是er-sis。

Air resistance 的英文词源是拉丁语，意为“空气的阻力”。其变化形式包括名词和形容词形式，如 air-resistance, air-resistant等。

相关单词：

Drag：意为“拖拽”，源于古英语中的“dragan”，意为“拖拽”或“拉扯”。这个词源于拉丁语中的“dragere”，意为“在空气中移动”。

Resistance：意为“抵抗”，源于拉丁语中的“resistere”，意为“抵抗”或“反抗”。这个词在英语中也有形容词形式，如air-resistant。

Airborne：意为“空中的”，源于拉丁语中的“aere”，意为“空气”或“天空”。这个词通常用于描述在空中飞行或移动的事物。

Airfoil：意为“空气面”，源于拉丁语中的“aerefolum”，意为“空气的翅膀”。这个词通常用于描述飞机机翼或其他具有空气动力学形状的物体。

Aerodynamics：意为“空气动力学”，源于希腊语中的“aero”和“dynamics”，意为“空气的运动”。这个词通常用于描述空气与物体之间的相互作用和影响。

Aerospace：意为“航空航天”，源于拉丁语和希腊语中的元素，表示与空气和空间有关的事物。这个词通常用于描述航空和航天领域的研究和应用。

以上单词都与air resistance有密切关系，描述了空气阻力在不同领域中的应用和影响。这些单词的出现和发展，反映了人类对空气阻力研究的不断深入和拓展。

Air resistance 常用短语：

1. air resistance force

2. air resistance coefficient

3. air resistance drag

4. aerodynamic resistance

5. aerodynamic drag

6. drag force due to air resistance

7. air resistance effect

例句：

1. The plane encountered air resistance when flying at high altitudes.

2. The car"s aerodynamic shape helps reduce air resistance for better fuel efficiency.

3. The windshield wiper fights against air resistance to keep the windshield clear in heavy rain.

4. The aircraft"s wings are designed to minimize air resistance.

5. The car"s aerodynamic design helps reduce fuel consumption and air resistance.

6. Air resistance is a significant factor in determining the speed of a moving object.

7. The effect of air resistance is particularly noticeable when a fast-moving object slows down or stops.

英文小作文：

Air resistance is a significant factor in the motion of objects in the air or water. It opposes the motion of an object and slows it down, especially when the object is moving quickly. For example, a fast-moving ball will experience greater resistance when it hits the ground or a wall than a slow-moving ball will. This is because faster objects create more turbulence and friction, which increases the amount of air resistance they experience.

Air resistance is also important in aerodynamics, the study of the motion of air and other gases. Airplanes, wind turbines, and kites are all examples of objects that must deal with air resistance to function properly. Designers use aerodynamic principles to minimize air resistance and increase the efficiency of these objects, which in turn improves their performance and reduces their fuel consumption. Understanding air resistance is crucial for understanding how objects move through the air and for developing effective designs for a wide range of applications.