Hello Youtube friends. In today's video I'm going to do another one of my pranks. We have a 12 volt battery and we have 220 volt AC power . We have a 12 volt lamp and a 220 volt lamp. Let's mix both currents and see what happens in this case. Don't miss this video because it's going to be very interesting and it's almost certain that you're going to leave slightly amazed. First I must show you what we are going to do. We will see it here in the circuit. We have a 12 volt battery. And a 12 volt light bulb. And we have 220 volts AC and a 220 volt AC lamp. With two totally different voltages, two totally different types of current, that are going to be mixed in this circuit. We are going to put the neutral of the alternating current, of the 220 volts, to the 220 volt lamp. The phase will come through this cable, it will continue through this cable and here it will go to both sides, one for 220 volts and the other for 12 volts. Here we are going to close a circuit. I guess! I guess. On the other hand we have one of the poles of the battery, it can be phase or neutral. It comes here, it also comes next to the lamp, and the other one comes here and here it joins the 220 volt one. The two come together here, it is a single cable, but both currents will pass through and we will see what happens with this little lamp that is here and what happens with this one. We have 220 plus 12 volts here, one AC, one DC. Now that you understand it, we are going to put it together here in practice. The first thing we are going to do is join the two common cables of the two lamps. Well united that would be the part that we have here. Now we are going to take one of the alternating cables, this one, and we are going to take it to the alternating lamp. Then here at the junction of the two lamps we are going to place a cable that would be what we have here. We are going to join the other alternate attention cable there. So that? so that the circuit comes here, it comes through this cable, close here but taking care that it doesn't go through the other one. So okay, let's see what happens. On the other hand, we have the positive pole of the battery, we are going to take it to the 12 volt lamp, automotive lamp. What would this be that we see here? And now we're going to make this connection. On the other side, the battery comes here to the cable and it has to go to 12 volts. And from here we will come to the cable to connect 12 volts here. Taking care that those 12 volts do not add to the 220 that come, that would have to come, here or that they are distributed to the other bulb. Yeah? So far everything is more than clear, but of course, now you have to make the connections. We are going to place the 12 volts. We have 12 volts in this circuit, we are going to disconnect it, turn it off and in the same circuit we are going to connect 220 volts. And we are going to connect it here. Now comes a little problem, because if I go here, the current can also go this way. I don't know what's going to happen but we're going to connect. Obviously, he turned on this circuit. Let's cover this so it doesn't bother so much. And here comes the problem, I would now have to connect the 12 volts here and well, here the problem would come. Let's connect then, Ah come on! Won't they think that one is stupid enough to connect here? That is what you would like, for me to connect the 12 volts here. I am going to connect it, yes, but disconnecting the 220. Now yes. You didn't want this, you wanted me to connect here. And well, we are going to give it pleasure and we are going to connect. Did they think I'm scared again? No! let's connect directly. what happens here? We have the two currents mixed through a cable. 220 and 12 volts. But of course, you may think: here is a trick. what do i know That this plug is here or this extension cord has two currents, but no, where the plug is going to be the same. What are we going to do now? We are going to use the instruments. We turn off, we disconnect. What are we going to do first? We're going to connect here to the 12 volt lamp, and here to the 12 volt lamp. that is, in the two terminals of the lamp to see what voltage we have. Let's make the connection. And we are going to see that there is 12.08 volts, because this battery is discharging. Yeah? 12.05 volts let's say it has. On the other hand, we are going to test this in 220 volt current and we are also going to connect it here, in the same cable as this one and also here in the other part of the lamp. And we are going to measure what we have here. 224 or 222 volts. And now we're going to turn this one on as well. And we are going to see that there is 12.11 or 12.6 volts as we just had. there we have 11.99 because the battery is discharging and we are going to disconnect and we are left with 11.98 the same as if it were connected. Therefore, here at 220 volts, if I disconnect this, the same voltage continues. Before continuing, if this seemed strange to you, subscribe, like, activate the bell and share these videos because someone always gets something out of this. Now I start to think and here it gets a little complicated. As I was saying, the 12 volts have been intelligent enough to arrive at this point and not go here, but go here, without any variation. On the other hand, the 220 volts came from here, through the other cable, they mixed with the 12 volts but it did not go there, the 220 could have come from here to this lamp, it could have come from here, come here, pass through the bulb and go to the battery and increase the battery voltage or maybe we burn this bulb. But not! it did not. Well, but here too at least one question arises for me. With the voltage apparently the volts are smart, they know that one has to go one way the other goes the other, even though they share this cable, they are not mixing with each other. But what about the amperage? Well, here we have two clamps. This one is exclusively for measuring alternating currents and this one can measure both currents, changing the selector of course. Let's first measure 220 volts. And we're going to measure here. 190 depending on how we put the clamp, 199 or 200 milliamps if we put it lying down. Between 190 and 200 milliamps of alternating current we have here. Now we are going to connect the DC power to the battery. And we are going to see that there are 1.83 amps. If we disconnect it there is nothing else. And we are also going to place the clamp, the alternating one, and we are going to see that the 200 milliamps are here and here it is showing 1.79 amps. If I disconnect this, the alternating one no longer measures and the continuous continues measuring normally. Amps also have intelligence. They know where to go, they are not stupid. Although they are mixed here, they can do it calmly, go to the right place without affecting the voltage or amperage of the same cable, but for now the currents do not mix, the amperages do not mix in the same circuit. If you liked this video, do not forget to like, subscribe and share so that it reaches as many people as possible, friends, it will be until we see each other
