Again, this is a very simple example of a series circuit. You can see that the current will have to pass through each resistor on this circuit. We have our power source with multiple resistors on this circuit. As you can see here, we have a very simple example of a series circuit. Let me show you an example of a few different types of series circuits. Wiring in series in this manner gives you added safety and control in electrical circuits you wish to govern in many industrial applications. For example, you might be starting a large motor. ![]() Once all the components are in a certain state, in this case closed, the circuit will be energized allowing current to pass through it, allowing the desired result to occur. These can be switches or relays and various other components, all wired in series acting as a sort of safety. In industrial applications, it can be used as a sort of switching device to make sure that a circuit is not closed and fully energized until everything on that circuit is in the proper state. Wiring in series is very common in many applications. The less bright each bulb will shine because of the added resistance and decreased current in that circuit. Also, the more light bulbs that are added to this circuit. It is unscrewed, the rest of the light bulbs will no longer function in this circuit until the problem is fixed. If these light bulbs are wired in series, that is to say each one is wired directly to the next, if one light bulb fails or if An example of this might be a set of light bulbs in our home. This can be caused by a failure of one of the components on the circuit or simply the removal of a component on that circuit. ![]() Because of this fact, if at any location the circuit is opened, every component on that circuit will lose power until the circuit is closed again. One of the most defining characteristics of a series circuit is the fact that current has only one path in which it can flow. Also, the voltage drop across the entire circuit will equal the sum of the voltage drop on each component in that circuit. ![]() So, the more resistance that is added to a series circuit, for instance, if we add more components, the less current you will see in that entire circuit. Because of this, every component or resistor on the circuit will experience the same amount of current. In a series circuit, the current passing through the circuit will go through every component on that circuit one at a time. Let's first talk about circuits that are wired in series. Remember that when talking about electrical circuits, there needs to be a closed loop in which electricity can flow through the whole circuit, starting at the power source and returning to the power source or ground. We will show the main differences between these two types of circuits and the advantages and disadvantages of each. More specifically, we are going to be looking at the difference between series circuits and parallel circuits. In today's video, we are going to be discussing electrical circuits. ![]() Hi I'm Josh Bloom, welcome to another video in the RSP Supply education series. In a parallel circuit, the bulbs will not dimeĮven if many bulbs are added, however, there will be a larger current draw the more that get added.Īlso, if any bulb is disconnected, there other bulbs will not be affected and will continue to function. Also, if anyone of the those light bulbs are disconnected or broken,Īll other bulbs on that circuit will no longer function. Think of a set of light bulbs: In a series circuit the more light bulbs that are added, the moreĭim the light bulbs will shine.
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