low resistance
简明释义
低阻力低电阻
英英释义
例句
1.A low resistance pathway allows for quicker responses in neural circuits.
一个低电阻的通路允许神经电路更快的反应。
2.In this experiment, we observed that materials with low resistance conducted electricity more efficiently.
在这个实验中,我们观察到具有低电阻的材料更有效地导电。
3.Using wires with low resistance can improve the performance of your electrical appliances.
使用低电阻的导线可以提高电器的性能。
4.The athlete's shoes are designed with low resistance soles to enhance speed.
这位运动员的鞋子设计有低阻力的鞋底,以提高速度。
5.The circuit is designed for low resistance to minimize energy loss.
这个电路设计为低电阻以最小化能量损失。
作文
In the world of physics and engineering, the term low resistance refers to a condition where an electrical component or circuit offers minimal opposition to the flow of electric current. This concept is crucial in various applications, from designing efficient circuits to understanding how electricity behaves in different materials. Low resistance is often desired in electronic devices because it allows for greater current flow, which can enhance performance and efficiency. For instance, in power distribution systems, cables with low resistance are used to minimize energy loss, ensuring that more power reaches its destination without unnecessary waste. One practical example of low resistance can be seen in the use of copper wires. Copper is known for its excellent conductivity, making it a popular choice for electrical wiring. When current flows through a copper wire, the low resistance of the material means that less energy is lost as heat. This property not only improves the efficiency of the electrical system but also reduces the risk of overheating, which can lead to equipment failure or fire hazards. Moreover, low resistance plays a significant role in the performance of electronic components such as transistors and diodes. These components are essential for controlling the flow of electricity in circuits. When they exhibit low resistance, they allow signals to pass through easily, enabling faster processing speeds and better overall performance in devices like computers and smartphones. However, achieving low resistance is not always straightforward. Factors such as temperature, material composition, and physical dimensions can affect the resistance encountered in a circuit. For example, as the temperature of a conductor increases, its resistance typically rises, which can hinder performance. Engineers must carefully consider these variables when designing systems that require low resistance to function effectively. In addition to its importance in electrical engineering, the concept of low resistance can also be applied metaphorically in various contexts. For instance, in personal development, individuals may strive to create a mindset of low resistance towards change and challenges. By adopting a flexible attitude and being open to new experiences, one can navigate life's obstacles more smoothly. Just as low resistance in a circuit allows for effortless flow of current, a low resistance mindset can facilitate personal growth and resilience. In conclusion, understanding the principle of low resistance is vital in both scientific and everyday contexts. Whether it is in the realm of electrical engineering, where it enhances the efficiency of circuits, or in personal development, where it fosters adaptability, the concept holds significant value. By recognizing the benefits of low resistance and striving to implement it in various aspects of life, we can achieve greater efficiency and effectiveness in our endeavors.
在物理和工程的世界中,短语低电阻指的是电气元件或电路对电流流动提供最小阻力的状态。这个概念在各种应用中至关重要,从设计高效电路到理解电力在不同材料中的行为。低电阻通常在电子设备中是期望的,因为它允许更大的电流流动,这可以提高性能和效率。例如,在电力分配系统中,使用低电阻的电缆可以最小化能量损失,确保更多的电力在没有不必要浪费的情况下到达目的地。一个实际的例子是铜线的使用。铜以其优良的导电性而闻名,因此成为电线的热门选择。当电流流经铜线时,材料的低电阻意味着作为热量损失的能量较少。这种特性不仅提高了电气系统的效率,还降低了过热的风险,这可能导致设备故障或火灾危险。此外,低电阻在晶体管和二极管等电子元件的性能中也起着重要作用。这些组件对于控制电路中的电流流动至关重要。当它们表现出低电阻时,它们允许信号轻松通过,从而提高计算机和智能手机等设备的处理速度和整体性能。然而,实现低电阻并不总是简单的。温度、材料成分和物理尺寸等因素都会影响电路中遇到的电阻。例如,随着导体温度的升高,其电阻通常会增加,这可能会妨碍性能。工程师在设计需要低电阻才能有效运行的系统时,必须仔细考虑这些变量。除了在电气工程中的重要性外,低电阻的概念在各种背景中也可以比喻性地应用。例如,在个人发展中,个人可能努力创造一种对变化和挑战的低电阻心态。通过采用灵活的态度并对新体验持开放态度,人们可以更顺利地应对生活中的障碍。就像电路中的低电阻允许电流轻松流动一样,低电阻心态可以促进个人成长和韧性。总之,理解低电阻的原理在科学和日常背景中都是至关重要的。无论是在电气工程领域,提高电路效率,还是在个人发展中,促进适应性,这个概念都具有重要价值。通过认识到低电阻的好处,并努力在生活的各个方面实施它,我们可以在我们的努力中实现更大的效率和效果。
