connected in series

简明释义

串联的

英英释义

例句

1.In a simple circuit, two resistors can be connected in series 串联连接 to increase the total resistance.

在一个简单电路中，两个电阻可以 串联连接 connected in series 来增加总电阻。

2.To create a higher voltage output, solar panels can be connected in series 串联连接.

为了产生更高的电压输出，太阳能电池板可以 串联连接 connected in series。

3.The light bulbs in this setup are connected in series 串联连接, so if one goes out, all of them will turn off.

这个设置中的灯泡是 串联连接 connected in series 的，因此如果一个灯泡熄灭，所有灯泡都会熄灭。

4.In electronics, components that are connected in series 串联连接 share the same current.

在电子学中，串联连接 connected in series 的组件共享相同的电流。

5.When batteries are connected in series 串联连接, their voltages add up.

当电池 串联连接 connected in series 时，它们的电压会相加。

作文

In the realm of electrical engineering, the concept of components being connected in series is fundamental to understanding how circuits operate. When we say that components are connected in series, we mean that they are arranged in a single path for the electric current to flow. This configuration has several important implications for the behavior of the circuit. For instance, if one component in a series connection fails or is removed, the entire circuit will be interrupted, causing all components to stop functioning. This principle can be easily demonstrated with a simple string of Christmas lights; if one bulb burns out, the entire string may go dark.The voltage across each component in a series circuit is not the same; rather, it is divided among them based on their resistance. According to Ohm's Law, the total voltage in the circuit is equal to the sum of the voltages across each individual component. Therefore, if you have three resistors connected in series with a total voltage supply of 12 volts, and the resistors have values of 2 ohms, 3 ohms, and 5 ohms respectively, the voltage drop across each resistor can be calculated. The total resistance in the circuit is the sum of the individual resistances, which in this case is 10 ohms. Using Ohm's Law, we can determine that the current flowing through the circuit is 1.2 amperes. Consequently, the voltage drop across each resistor can be determined using the formula V = IR, where I is the current and R is the resistance. The first resistor will have a voltage drop of 2.4 volts, the second will have 3.6 volts, and the third will have 6 volts.Understanding the concept of being connected in series is crucial not just for theoretical applications but also for practical ones. In real-world applications, such as in household wiring, devices are often connected in series to ensure that they operate under the same current conditions. For example, in a simple circuit powering multiple devices, all devices must share the same current, which can be advantageous for ensuring uniform performance. However, it can also present challenges if one device malfunctions, as it can affect the entire system.Moreover, the series connection is not limited to resistors; it can also include capacitors and inductors, which behave differently when arranged in series. Capacitors connected in series have a combined capacitance that is less than the smallest individual capacitor in the circuit. This is an essential consideration in designing circuits that require specific capacitance values. Similarly, inductors in series add their inductance values together, which can influence the overall behavior of the circuit significantly.In conclusion, the knowledge of how components are connected in series is crucial for anyone studying electrical engineering or working in related fields. It provides insight into how circuits function, how voltage and current behave, and the implications of component failure. Whether designing a complex electronic device or troubleshooting a simple circuit, understanding the principles behind series connections is essential for achieving desired outcomes and ensuring reliability in electrical systems.

在电气工程领域，元件 串联连接 的概念对于理解电路的运行至关重要。当我们说元件 串联连接 时，我们的意思是它们被安排在一个单一路径上，让电流流动。这种配置对电路的行为有几个重要的影响。例如，如果串联连接中的一个元件发生故障或被移除，整个电路将被中断，导致所有元件停止工作。这个原理可以通过简单的圣诞灯串来轻松演示；如果一个灯泡烧坏，整个灯串可能会熄灭。串联电路中每个元件的电压并不相同；相反，它根据各自的电阻在它们之间分配。根据欧姆定律，电路中的总电压等于每个单独元件的电压之和。因此，如果你有三个电阻 串联连接，总电压供应为12伏特，而电阻值分别为2欧姆、3欧姆和5欧姆，那么可以计算出每个电阻上的电压降。电路中的总电阻是各个电阻的总和，在这个例子中是10欧姆。使用欧姆定律，我们可以确定电路中流动的电流为1.2安培。因此，可以使用公式V = IR（其中I是电流，R是电阻）来确定每个电阻上的电压降。第一个电阻的电压降为2.4伏特，第二个电阻为3.6伏特，第三个电阻为6伏特。理解 串联连接 的概念不仅对理论应用至关重要，而且对实际应用也很重要。在现实世界的应用中，例如家庭布线，设备通常 串联连接 以确保它们在相同的电流条件下运行。例如，在一个简单的电路中为多个设备供电，所有设备必须共享相同的电流，这在确保均匀性能方面是有利的。然而，如果一个设备发生故障，这也可能给整个系统带来挑战。此外，串联连接不仅限于电阻器；它还可以包括电容器和电感器，当它们串联连接时，其行为有所不同。串联连接的电容器的总电容小于电路中最小的单个电容器。这在设计需要特定电容值的电路时是一个重要的考虑因素。类似地，串联的电感器将其电感值相加，这可能显著影响电路的整体行为。总之，了解元件如何 串联连接 对于任何学习电气工程或从事相关领域的人来说都是至关重要的。它提供了对电路功能、电压和电流行为以及元件故障影响的深入了解。无论是设计复杂的电子设备还是排除简单电路故障，理解串联连接背后的原理对于实现预期结果和确保电气系统的可靠性都是必不可少的。