connection in series

简明释义

串联

英英释义

例句

1.In a circuit, when multiple resistors are connected, they create a connection in series 串联连接 which increases the total resistance.

在电路中，当多个电阻器连接时，它们形成了一个connection in series 串联连接，这会增加总电阻。

2.In home wiring, lights are often wired in a connection in series 串联连接 to control them with a single switch.

在家庭布线中，灯通常以connection in series 串联连接的方式接线，以便用一个开关控制它们。

3.In a connection in series 串联连接, the current remains the same, but the voltage is divided among the components.

在connection in series 串联连接中，电流保持不变，但电压在各个组件之间分配。

4.When troubleshooting, check for any breaks in the connection in series 串联连接 to ensure all components are functioning properly.

在故障排除时，检查connection in series 串联连接中是否有断开，以确保所有组件正常工作。

5.The battery and light bulb are arranged in a connection in series 串联连接, meaning if one fails, the entire circuit stops working.

电池和灯泡以connection in series 串联连接的方式排列，这意味着如果其中一个故障，整个电路就会停止工作。

作文

In the realm of electronics and electrical engineering, understanding the concept of connection in series is fundamental. A connection in series refers to a specific way of connecting electrical components, where the components are arranged one after another in a single path for the current to flow. This means that the same current flows through each component in the circuit, providing a clear demonstration of the relationship between voltage, current, and resistance. To illustrate this concept further, let's consider a simple circuit consisting of two resistors connected in series. When these resistors are connected in such a manner, the total resistance of the circuit increases. This is because the total resistance in a connection in series is simply the sum of the individual resistances. For instance, if we have a resistor of 4 ohms and another of 6 ohms, the total resistance would be 4 + 6 = 10 ohms. This increase in resistance impacts the overall current flowing through the circuit according to Ohm's Law, which states that current (I) is equal to voltage (V) divided by resistance (R). Therefore, if the applied voltage remains constant, an increase in resistance will lead to a decrease in current.One of the most important characteristics of a connection in series is that if one component fails or is disconnected, the entire circuit is interrupted. This can be likened to a string of holiday lights; if one bulb goes out, the rest of the bulbs will also turn off. This feature can be both advantageous and disadvantageous depending on the application. For example, in a simple circuit where you want to ensure that all components function together, this type of connection can be beneficial. However, in more complex systems, such as household wiring, it is often preferable to use parallel connections to avoid complete circuit failure due to a single component malfunctioning.Moreover, the voltage drop across each component in a connection in series is proportional to its resistance. This means that if we measure the voltage across each resistor in our earlier example, we would find that the voltage drop across the 4-ohm resistor would be less than that across the 6-ohm resistor, assuming the total voltage supplied to the circuit is constant. This principle is crucial in designing circuits where voltage distribution needs to be controlled.In conclusion, the concept of connection in series is a critical aspect of electrical engineering that has practical implications in various applications. By understanding how components behave when connected in series, engineers and technicians can design more efficient and reliable circuits. Whether it’s in simple educational experiments or complex industrial systems, mastering the principles of connection in series is essential for anyone working in the field of electronics. As technology continues to evolve, the importance of these fundamental concepts remains steadfast, ensuring that future innovations are built on solid foundational knowledge.

在电子和电气工程领域，理解串联连接的概念是基础。串联连接是指以特定方式连接电气元件，其中元件一个接一个地排列在电流流动的单一路径中。这意味着相同的电流通过电路中的每个元件，从而清楚地展示了电压、电流和电阻之间的关系。为了进一步说明这一概念，让我们考虑一个简单的电路，由两个电阻器串联连接。当这些电阻器以这种方式连接时，电路的总电阻会增加。这是因为在串联连接中，总电阻只是各个电阻的总和。例如，如果我们有一个4欧姆的电阻器和一个6欧姆的电阻器，则总电阻为4 + 6 = 10欧姆。电阻的增加会影响根据欧姆定律流过电路的总体电流，欧姆定律指出电流（I）等于电压（V）除以电阻（R）。因此，如果施加的电压保持不变，电阻的增加将导致电流减少。串联连接的一个重要特性是，如果一个元件失效或断开，整个电路就会中断。这可以比作一串节日灯；如果一个灯泡熄灭，其余的灯泡也会熄灭。这种特性在不同应用中可能既有利又有弊。例如，在一个简单的电路中，当您希望确保所有元件共同工作时，这种连接方式可能是有益的。然而，在更复杂的系统中，例如家庭布线，通常更喜欢使用并联连接，以避免由于单个元件故障而导致整个电路失效。此外，在串联连接中，每个元件的电压降与其电阻成正比。这意味着，如果我们测量早期示例中每个电阻器的电压，我们会发现4欧姆电阻器上的电压降小于6欧姆电阻器上的电压降，假设施加到电路的总电压是恒定的。这一原理在设计需要控制电压分配的电路中至关重要。总之，串联连接的概念是电气工程的重要方面，对各种应用具有实际意义。通过理解元件在串联连接时的行为，工程师和技术人员可以设计出更高效、更可靠的电路。无论是在简单的教育实验还是复杂的工业系统中，掌握串联连接的原理对任何从事电子行业的人来说都是必不可少的。随着技术的不断发展，这些基本概念的重要性依然坚定，确保未来的创新建立在坚实的基础知识之上。