low resistance
简明释义
低阻抗
英英释义
例句
1.In a vacuum, objects experience low resistance 低阻力, allowing them to move freely.
在真空中,物体经历低阻力 低阻力,使它们能够自由移动。
2.Using a low resistance 低电阻 material in the design can improve the efficiency of the device.
在设计中使用低电阻 低电阻材料可以提高设备的效率。
3.In electrical circuits, using wires with low resistance 低电阻 helps minimize energy loss.
在电路中,使用具有低电阻 低电阻的电线有助于减少能量损失。
4.For optimal performance, the engine is tuned to operate at low resistance 低阻力 levels.
为了获得最佳性能,发动机被调校为在低阻力 低阻力水平下运行。
5.The athlete's shoes are designed for low resistance 低阻力 to enhance speed during races.
这位运动员的鞋子设计为低阻力 低阻力,以提高比赛时的速度。
作文
In the world of physics and engineering, the concept of low resistance is crucial for understanding how electrical circuits function. Resistance is a measure of the opposition to the flow of electric current. When we talk about low resistance (低电阻), we refer to materials or components that allow electric current to pass through them with minimal opposition. This characteristic is essential in various applications, from household wiring to advanced electronic devices.For instance, copper is widely used in electrical wiring due to its low resistance (低电阻) properties. The lower the resistance of the wire, the more efficiently electricity can flow through it. This efficiency is particularly important in power transmission, where long distances can lead to significant energy losses if the resistance is too high. By using materials with low resistance (低电阻), engineers can minimize these losses and ensure that electricity reaches homes and businesses effectively.Moreover, low resistance (低电阻) plays a vital role in the performance of electronic devices. For example, in circuit design, components such as transistors and resistors are chosen based on their resistance values. A device that requires a quick response time, like a smartphone, benefits from components with low resistance (低电阻), allowing signals to travel faster and improving overall performance. In contrast, high resistance can lead to delays and inefficiencies, which are unacceptable in modern technology.Another area where low resistance (低电阻) is significant is in renewable energy systems, particularly solar panels. The efficiency of solar energy conversion relies heavily on the materials used in the panels. By incorporating materials with low resistance (低电阻), manufacturers can enhance the energy output of solar cells, making them more viable as an alternative energy source. This improvement not only benefits individual users but also contributes to the global effort to reduce reliance on fossil fuels.However, achieving low resistance (低电阻) is not without its challenges. Environmental factors such as temperature can affect resistance levels. For instance, as the temperature of a conductor increases, its resistance typically rises, which can lead to overheating and potential failure of electrical components. Therefore, engineers must consider these factors when designing systems that rely on low resistance (低电阻) materials to ensure reliability and safety.In conclusion, the concept of low resistance (低电阻) is integral to the functioning of electrical and electronic systems. Its importance spans various fields, including power distribution, circuit design, and renewable energy technologies. As we continue to innovate and develop new technologies, understanding and utilizing materials with low resistance (低电阻) will remain a key focus for engineers and scientists alike. This understanding not only enhances the efficiency of our devices but also paves the way for a more sustainable future in energy consumption.
