low resistance

简明释义

低阻力

英英释义

A condition where there is minimal opposition to the flow of electric current, allowing for easier passage of electricity.

一种电流流动时阻力最小的状态,允许电流更容易通过。

In a broader context, it can refer to any situation where there is little resistance or opposition to a process or action.

在更广泛的背景下,它可以指任何对过程或行动几乎没有阻力或反对的情况。

例句

1.In fluid dynamics, low resistance 低阻力 surfaces can significantly reduce drag.

在流体动力学中,低阻力 低阻力表面可以显著减少阻力。

2.The new design of the bicycle features low resistance 低阻力 tires for better speed.

新设计的自行车配备了低阻力 低阻力轮胎,以提高速度。

3.Using a low resistance 低电阻 wire is crucial for high-power applications.

在高功率应用中,使用低电阻 低电阻电线是至关重要的。

4.In electrical circuits, using materials with low resistance 低电阻 allows for more efficient energy transfer.

在电路中,使用具有低电阻 低电阻的材料可以实现更高效的能量传输。

5.Athletes often train to improve their performance by reducing low resistance 低阻力 in their movements.

运动员通常通过减少其动作中的低阻力 低阻力来提高表现。

作文

In the world of physics and engineering, the concept of low resistance plays a crucial role in the design and functionality of various systems. Resistance, in electrical terms, refers to the opposition that a circuit offers to the flow of electric current. When we talk about low resistance (低电阻), we are referring to materials or components that allow electric current to pass through them with minimal opposition. This characteristic is essential for efficient energy transfer and performance in electrical devices.One of the most common applications of low resistance is in the development of electrical wiring. Copper, for instance, is widely used due to its low resistance (低电阻) properties. When electricity flows through copper wires, it encounters very little resistance, which means less energy is lost as heat. This efficiency is vital for power distribution systems, where maintaining a low loss of energy can significantly reduce costs and improve overall performance.In contrast, materials with high resistance can lead to energy loss and inefficiencies. For example, if we were to use a material with a high resistance to conduct electricity, a significant amount of energy would be wasted as heat, resulting in overheating and potential damage to the system. Therefore, engineers strive to use materials with low resistance (低电阻) to enhance the effectiveness of their designs.Moreover, the concept of low resistance is not only limited to electrical circuits but also extends to other fields such as fluid dynamics. In fluid mechanics, low resistance (低电阻) can refer to the ease with which a fluid flows through a conduit. For instance, in plumbing systems, pipes designed with a smooth interior surface exhibit low resistance (低电阻) to water flow, minimizing the energy required to pump water through the system.Additionally, in the realm of sports and physical performance, the idea of low resistance (低电阻) can be applied metaphorically. Athletes often seek ways to reduce resistance in their movements to enhance speed and efficiency. For example, swimmers wear streamlined suits that minimize drag in the water, allowing them to glide more effortlessly through the pool. Similarly, cyclists invest in aerodynamic gear to reduce wind resistance, enabling them to achieve higher speeds with less effort.In conclusion, the term low resistance (低电阻) encompasses a wide range of applications across different disciplines. Whether in electrical engineering, fluid dynamics, or even sports, understanding and utilizing low resistance (低电阻) is fundamental to optimizing performance and efficiency. As technology continues to advance, the importance of low resistance (低电阻) will only grow, paving the way for innovations that require minimal opposition to function effectively.