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Electricity flows in an open circuit, too


MitkoGorgiev

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A considerable amount of current can flow in an open circuit under certain conditions. I will present you a very simple experiment which undoubtedly proves that. But before that, let me give you a little introduction.

Electricity is a fluid. Just as the water and the air can flow through pipes, so the electricity can flow through metal wires or other electrically conductive things. However, water and air are material fluids, whereas electricity is an immaterial fluid. Water is dense, air is less dense than water and the electricity is the least dense, actually it crosses the border of materiality and goes in immateriality. I will give you further down an example on this.

Let’s first consider something else.

When a body moves through space filled with air, then higher pressure is created in front of it, while lower pressure (depressure) behind it. The higher pressure is Plus, the lower pressure is Minus. I use to call this a ‘principle of an arrow’ (− >—> +).

post-96058-0-01945400-1596882049_thumb.png

The greater the velocity of the body is, the stronger is the plus in front of it as well as the minus behind it (this principle can be found in many things, among others also in the so-called “Bernoulli’s principle”; please see Bernoulli's principle can be found in the electric current, too .

In this example a body is moving linearly through the air. Can we achieve higher and lower pressure on opposite sides of a body whose place in the space remains stationary? Yes, we can do that by means of a fan. When a fan is turning, then it is blowing in front of it (higher pressure/plus), but it is suctioning behind it (lower pressure/minus).

Let’s say we have a fan without internal drive. If this fan is standing on the way of the wind, then it is turning. We can simulate this by taking a small fan (like those in computers) and a hair dryer. We bring the turned-on hair dryer close to the fan. It starts to turn in one direction. If we bring a turned-on vacuum cleaner close to it, then it starts to turn in the contrary direction. But if we attach the fan to a wall and then bring the hair dryer or the vacuum cleaner close to it, the fan is not turning. The reason is that behind the fan there is no space filled with air where the flux can spread or from where it can suction.

Exactly the same happens with the electric flux. For example, when we touch with a finger the end of the phase tester (one-contact neon test light) (the other end touches the phase), our body becomes, so to say, the "space filled with air", actually an object with sufficient electrical conductivity whereto the flux can spread, or wherefrom it can suction and consequently the lamp lights up. [ The phase tester is a series connection of a resistor and a small neon lamp. ]

If the fan in the already described experiment is a little away from the wall, then it is turning slowly. The farther it is away from the wall, the faster it is turning, until it reaches the maximum speed. The farther removal has no influence on the turning speed. Let’s compare this to the phase tester (PT). If we attach a small piece of metal wire on the back end of the PT, then the lamp lights up weakly (we hold the PT on its plastic part, hence our body in this case has no influence on the phenomena). The longer or the thicker the wire is (or both at the same time), the stronger the lamp is shining, until it reaches the maximum. The further increasing of the wire volume has no influence on the lamp’s brightness.

However, it is not solely the volume of the wire that matters, but also its conductivity. If we have two equal wires, but made of different metals, the lamp will shine brighter with the wire of better conductivity.

The conductive body behind the PT doesn’t have to be made of metal. It can be also an electrolyte. As we already know, the pure water is a bad electrical conductor. But as soon as we add acid, base or salt in the water, its electrical conductivity considerably improves. Therefore, we can increase the volume of the conductive body behind the PT by immersing the wire in a container of salty, alkaline or acidic water. The earth/ground is actually a huge container of such water. The minerals in the Earth make the water an electrolyte and thus a large and good conductive body. But it is so only when it is sufficiently moist. In summers with low rainfall, the earth is dry and it is a bad conductive body. For example, if we build a city in the Gobi desert (Gobi is the driest place on the planet Earth), we cannot use the earth as “ground”. We have to invent another ground. We can, for example, let a jumbo-jet make circles over the city and use its huge chassis as “ground”. We will connect all the grounding wires to it and thus get sky-earthing. Of course I am joking, but principally there is nothing wrong in this joke. I have made up this example and oxymoron to stress how little we understand the electricity. I have seen the term “ground return” many times, as if the electric circuit closes itself through the Earth. No, in most practical cases it is not true. The electric current actually ends blind in the earth. Instead of ending in the earth, it can also end in the sky, i.e., in the jumbo-jet.

Let me now present the experiment which shows that the electricity flows in an open DC circuit. All we need is a battery, a small LED lamp and two large conductive objects on both ends of the LINE. Below is the schematic of the experiment:

main-qimg-0a4de53e6d79cbe87d02b96ba1b7fae8

I have recorded also a video to show the experiment (I apologize for my bad English):

The larger the metal objects, the better the result, i.e., the LED-lamp is shining brighter. But this can be somewhat misleading, because it is not the size of the object that matters, but the volume of the conductive material and its conductivity. In this video I have used a hollow metal object – a washing machine. The result would have been much better if I have had a metal object of the same size, yet not hollow, but solid.
If you don’t have two large metal volumes available, then as one large metal volume you can use the protective earthing conductor from a socket.

We can imagine the battery as many fans/propellers in series (please see What is a battery?). If these propellers are placed in a vacuum, then nothing will happen because there is nothing in the space around them to be moved. As soon as we put air or water in the space, the motion begins. It is the same with the battery and electricity. When we connect enough conductive volume behind the battery’s fans and in front of them, then the negative terminal has ‘Wherefrom’ it can suction and the positive terminal has ‘Whereto’ it can blow that, what the other terminal has suctioned. The electricity flow, just as the water- and air flow, is a continuum and as such it needs continuity along both sides of the “propeller”. You will never really understand the electric current if you think of it as of separate moving particles. Think of this: when one talks about water-flow, he doesn’t talk about moving particles. When one talks about air-flow, then he doesn’t talk about moving particles. Why so? Because both are fluids. And a fluid is like gelatin. It sticks together and moves together as a continuum. Then, why would we think of electricity flow as of separate moving particles?

In case we close the conductive path in a circle, then the blowing from the one side meets with the suctioning from the opposite side, thus intensifying the electric flux many, many times.

Regarding the open-circuit flow, think also of the following examples from the history: many of you certainly know that we can make a simple radio receiver without using any external power source. It is called a crystal radio. The electromagnetic waves from the transmitter hit the antenna and induce electric current in it which then goes in the receiver’s apparatus. But this current would be very weak to actuate the headphones of the apparatus if behind it there is not sufficient conductive volume. What is used as a conductive volume in this case? The Earth, of course. The apparatus has to be well-earthed if one wants a satisfactory result, i.e., to listen to the broadcast of certain radio stations on the headphones.

Consider also this: In the 19th century was in use a single-wire telegraph (so-called “Earth-return telegraph”) after the people realized that the second wire is superfluous and thus they can cut the costs on wires. It was a simple DC on-off Morse code system with a battery earthed on both the transmitter’s and the receiver’s side. It was actually an open-circuit system.

Another thing. If we swing a glass- or a vinyl-plate like a hand-held fan, then we cause an alternating air-current, that is, we cause longitudinal waves in the air. If we swing it pretty fast, then we cause sound waves at the same time (which are also longitudinal waves). If we now rub the glass or the vinyl plate with a woolen cloth, then the plate is electrified and if swing it again, we cause besides the air- and the sound-waves also electromagnetic waves (in relation to this please see How can we get an intuitive visualization of the polarization of an electromagnetic wave? ).

We say that there is an electric field around the electrified glass and vinyl. What is an electric field? Is it something material? Did Michael Faraday mean some moving or stationary particles around an electrified or a magnetized object when he introduced the term “field” two hundred years ago? Certainly not. Actually, the scientists of the first half of the 19th century spoke of electric current as of electric field through the wires.

If the glass or the vinyl is not moving, then the field is also motionless. If the glass is moving, then the field is moving together with the glass. This moving field is an electric wind. This wind, of course, is immaterial, too.

If we move the glass towards one end of a piece of metal wire, then this immaterial wind propagates through the wire to its other end (if the wire is good conductive, it could be many kilometers long). At the other end blowing takes place(+) . If we move the glass away from the wire, then at the other end suctioning takes place (–). With the minus electrified object (that is, the vinyl), the opposite happens.

Here is the evidence. Please look at the circuits below:

main-qimg-2a173d8cbd8d06b1dadc0a805698b9a7

When we move the glass plate toward and away from the wires (they could be many, many meters long and their free ends very far away from the circuits), then the LED lamps light up alternately: the LED lamp in the upper circuit lights up upon moving toward, while the LED lamp in the lower circuit upon moving away.
When we move the 
vinyl plate toward and away from the wires, then the opposite happens. The results can be summarized as follows:

main-qimg-6c66fabf8e817d85eb1909c0bf0ffdda

For better results we should double the number of transistors (figure below). In this case the amplification is greater and the experiment is much more easily performed (we make actually the so-called Darlington pair of transistors).

main-qimg-82e0a1c4accd4033ac57abe712aa0bd3

More details about this experiment and about its analog performed with electroscope, you can read in this article What is electromagnetic induction?

This experiment shows again that the electricity flows in an open circuit. Actually, when we move an electrified object towards or away from a piece of wire, there is already an electric current in it. We need the transistor’s circuits only to ascertain that that current exists.

Now comes the sweetest part. In my book “New theories on electromagnetism and on light an colors” (there is a link to it at my Profile page) there is one more experiment with these circuits, a very astonishing one (it is on page 27 and 57). There I have actuated the transistors through electrified glass and vinyl, but acting on the emitter or on the collector, not on the transistor’s base (the free end wire is connected either to the emitter or to the collector). However, this wouldn’t have been possible if a piece of wire, 10–15 cm or more, was not attached to the base. It is an original experiment which you cannot explain for sure from the standpoint of the contemporary theory of semiconductors.

In relation to this article, please read also these:
What is "ground" in electricity?

What is electric current?

P.S. My niece recently got shocked while she was sewing on an electrical machine. The voltage of the socket (220–240V) was somehow present in the metal plate below the needle. She got actually shocked because she was touching the metal plate with her hand and at the same time she has touched with bare foot a computer chassis under the table which was plugged in and thus grounded.

I have held many times a bare phase wire with a bare hand, but standing on an insulated floor and not touching anything with the other hand. The current which is flowing in my body in this case is too weak to be felt, because my body is the last link in the conductive chain. But if I touch with the other hand a large metal object, even if it is insulated from the ground, then a strong shock is inevitable. In this case my body is not anymore the last link in the chain and therefore the electric flux through it is stronger. If this shock lasts two-three seconds, it can be fatal, because the current goes through the heart.

Added 30-Sep-2020: I have recorded one more video in relation to this subject:

https://youtu.be/jmzXILw9Vk0

Edited by MitkoGorgiev
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22 hours ago, MitkoGorgiev said:

 

I have held many times a bare phase wire with a bare hand, but standing on an insulated floor and not touching anything with the other hand. The current which is flowing in my body in this case is too weak to be felt, because my body is the last link in the conductive chain. But if I touch with the other hand a large metal object, even if it is insulated from the ground, then a strong shock is inevitable. In this case my body is not anymore the last link in the chain and therefore the electric flux through it is stronger. If this shock lasts two-three seconds, it can be fatal, because the current goes through the heart.

Seriously? You think you're telling us something new?

And not exactly true either. If the large metal object is insulated from ground, it's far from inevitable that you will complete a circuit and receive a shock. Sign up to be an electrical engineer and then come back in 5 or 6 years when you are educated enough to hear a full explanation.

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6 hours ago, MitkoGorgiev said:

Would you try it? To hold in one bare hand a bare phase wire and with the other hand to touch a large metal object insulated from the ground?
I will not be responsible when you get hurt!

Sure, no problem and the object being insulated from ground sometimes makes no difference. You've made a mistake that even a first year electrician apprentice wouldn't make. Do you know why the large object being grounded or not has nothing to do with completing a circuit through your body? That's a very simple question that you're going to have to answer before I can take you seriously and allow you to complete your first year apprenticeship. 

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You have a complete circuit, the bath is grounded, and the washing machine (looks like its plugged in) has enough resistance to be at ground as well, then you need 5 9volt batteries to light a LED!

Sorry, you did not break physics today, doing science is all about how what you are doing might be wrong in consideration of the conclusions you make from them.

In other words you should be trying to prove yourself wrong, and looking for ways that show you might be wrong.

At least you are doing science, that's a good start.

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6 minutes ago, Mutex said:

You have a complete circuit, the bath is grounded, and the washing machine (looks like its plugged in) has enough resistance to be at ground as well, then you need 5 9volt batteries to light a LED!

Sorry, you did not break physics today, doing science is all about how what you are doing might be wrong in consideration of the conclusions you make from them.

In other words you should be trying to prove yourself wrong, and looking for ways that show you might be wrong.

At least you are doing science, that's a good start.

He's not going to learn anything from that. You've told him he's wrong but you haven't challenged him to investigate why. And not to say that I couldn't set up an experiment with high voltage that could make his theory work. Can you?  

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2 minutes ago, montgomery said:

He's not going to learn anything from that. You've told him he's wrong but you haven't challenged him to investigate why. And not to say that I couldn't set up an experiment with high voltage that could make his theory work. Can you?  

I thought by saying to try to prove yourself wrong, is challenging him to investigate (why). 

If his theory is correct, he will be able to set up an experiment to show that, and if the theory is incorrect he will not be able to show that, and if he does get something to work, and the theory is wrong, then something in the experimental setup is wrong.  That's how science works.

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2 hours ago, Mutex said:

I thought by saying to try to prove yourself wrong, is challenging him to investigate (why). 

If his theory is correct, he will be able to set up an experiment to show that, and if the theory is incorrect he will not be able to show that, and if he does get something to work, and the theory is wrong, then something in the experimental setup is wrong.  That's how science works.

 i hear you but I don't think that encouraging him to pursue a dead end is going to help. In fact, I think he's on the borderline of turning into another Thoth unless he gets the hard knocks he deserves. If there's anything worth saving in him then he'll be back with a more apologetic tone and a will to learn. So we'll see.

A word or two on Thoth. Why is it that this forum has sacrificed it's credibility by allowing Thoth to go on with his nonsense. I don't mean that he should be axed from the board but instead nobody in their right mind should be allowing him to get away with his conspiracy theory crap. I'm thinking that Victor is part of the problem but I haven't made it my business to look into the performance of some possible others who are batshit crazy along with him. (them)

I suspect that the owner is more interested in 'posts' volume than anything else. Still, it's worth it to me to test it until I get axed by some kook like the breeze.

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4 hours ago, Mutex said:

You have a complete circuit, the bath is grounded, and the washing machine (looks like its plugged in) has enough resistance to be at ground as well, then you need 5 9volt batteries to light a LED!

Sorry, you did not break physics today, doing science is all about how what you are doing might be wrong in consideration of the conclusions you make from them.

In other words you should be trying to prove yourself wrong, and looking for ways that show you might be wrong.

At least you are doing science, that's a good start.

Neither the bathtub nor the washing machine is grounded. The latter is unplugged and under every leg, both of the bathtub and the washer there are plastic plates.
Yes, I did break the physics, but you are far from understanding that (look for example my article about the Faraday's law).
I have put many objections to my physics during my work, and yes, in one case, I have to correct myself.
Now I have no more objections. If you have some, then tell us.

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15 minutes ago, MitkoGorgiev said:

Neither the bathtub nor the washing machine is grounded. The latter is unplugged and under every leg, both of the bathtub and the washer there are plastic plates.
Yes, I did break the physics, but you are far from understanding that (look for example my article about the Faraday's law).
I have put many objections to my physics during my work, and yes, in one case, I have to correct myself.
Now I have no more objections. If you have some, then tell us.

Didn't I already tell you that grounding has nothing to do with the question? Can't you even work your way through that question. 

Look, if you induce a potential voltage into a metal object using one phase of the power supply and then complete a circuit through another phase, you can fry your mischievious little body if the voltage is high enough and your body is part of the circuit. Where's the need for the ground?

And that's just my generosity of doing some of your homework for you! 

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25 minutes ago, montgomery said:

Look, if you induce a potential voltage into a metal object using one phase of the power supply and then complete a circuit through another phase, you can fry your mischievious little body if the voltage is high enough and your body is part of the circuit. Where's the need for the ground?

"Ground" is a misleading term. The right term would be "volume", that is, electrically conductive volume. I can fry my body if I touch the phase wire with one hand and with the other hand I touch the chassis of a helicopter which is in the air, because the electric flux in my body in that case will be many, many times stronger.

What has a flying thing in the air to do with "Ground" or "Earth"?!!!

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8 hours ago, MitkoGorgiev said:

Neither the bathtub nor the washing machine is grounded. The latter is unplugged and under every leg, both of the bathtub and the washer there are plastic plates.
Yes, I did break the physics, but you are far from understanding that (look for example my article about the Faraday's law).
I have put many objections to my physics during my work, and yes, in one case, I have to correct myself.
Now I have no more objections. If you have some, then tell us.

There is NO way the bathtub is not grounded, and there is little possibility the washing machine has an infinite resistance between ground and the voltage source for the LED.

The fact that the LED lights up is proof that there is a complete circuit, go an buy a multimeter, put it on Ohms and you will measure a resistance between your electrical ground and the bath, and you will read an electrical resistance between the washing machine and the bath. 

You could even just do V=IR and based on the voltage needed to light the LED and the current the LED draws you can calculate that resistance 

(It's R = V/I)

As you know you are dealing the 'DC' and not AC so faraday's law does not apply here at all. 

You talked about getting a shock of a helicopter, that is because you complete a circuit, the helicopter builds up a static charge due to the interaction with air, when you touch it, you make a circuit to the ground and you get a shock. 

It is clear that you have a complete electrical circuit, even if the 'ground' path resistance is quite high, that is why you need 41 volts to light up a sub 1 volt LED. 

Sorry, no Nobel for you this year. 

It's called 'potential difference'  = the thing a flying thing has to do with ground or earth. 

Edited by Mutex
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8 hours ago, Mutex said:

There is NO way the bathtub is not grounded, and there is little possibility the washing machine has an infinite resistance between ground and the voltage source for the LED.

Don't you understand English? The washing machine is unplugged and under each leg there is a plastic plate, so that it is good insulated from the floor. 
The bathtub has no connection to any water pipe and under leach leg there is also a plastic plate.
Both objects are good insulated from the floor.
Concerning the Faraday's law: I didn't say that that topic has anything to do with this one. I only wanted to point out that in that topic I have disproved the law. I have disproved also other things, but from your way of thinking I can conclude that you are very, very far from understanding that.

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28 minutes ago, MitkoGorgiev said:

Don't you understand English? The washing machine is unplugged and under each leg there is a plastic plate, so that it is good insulated from the floor. 
The bathtub has no connection to any water pipe and under leach leg there is also a plastic plate.
Both objects are good insulated from the floor.
Concerning the Faraday's law: I didn't say that that topic has anything to do with this one. I only wanted to point out that in that topic I have disproved the law. I have disproved also other things, but from your way of thinking I can conclude that you are very, very far from understanding that.

Plastic or not, I don't care, you are capable of measuring an electrical resistance between the washing machine and the bath, that is a fact.

You are making assumption about the level of insulation between the two, assumptions you do not have to make, you can measure it, you ARE already measuring it. 

You are simply drawing a conclusion on an incorrect assumption, making your conclusion incorrect, I understand both English AND electrical engineering.

You might also want to do some investigation of the conductivity of MANY PLASTICS! Something you could easily test. You know the basic things a researcher would do before claiming all of physics is wrong. You have disproved NOTHING.. 

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43 minutes ago, MitkoGorgiev said:

Don't you understand English? The washing machine is unplugged and under each leg there is a plastic plate, so that it is good insulated from the floor. 
The bathtub has no connection to any water pipe and under leach leg there is also a plastic plate.
Both objects are good insulated from the floor.
Concerning the Faraday's law: I didn't say that that topic has anything to do with this one. I only wanted to point out that in that topic I have disproved the law. I have disproved also other things, but from your way of thinking I can conclude that you are very, very far from understanding that.

Why are you using two objects that are connected to water lines in one way or another? You say there is no water pipe connected to the bath but does not both the washing machine and the bath have drain pipes? If the led lights there must be a complete circuit.  Try disconnecting both the water inlet and the drain lines from the washing machine and repeat your experiment. Even better, don’t use any device that connects to water lines at all; try two metal filing cabinets sitting on a tile floor. This experiment is nonsense and the only person who is being fooled here is you.

 

 

 

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14 hours ago, montgomery said:

 i hear you but I don't think that encouraging him to pursue a dead end is going to help. In fact, I think he's on the borderline of turning into another Thoth unless he gets the hard knocks he deserves. If there's anything worth saving in him then he'll be back with a more apologetic tone and a will to learn. So we'll see.

A word or two on Thoth. Why is it that this forum has sacrificed it's credibility by allowing Thoth to go on with his nonsense. I don't mean that he should be axed from the board but instead nobody in their right mind should be allowing him to get away with his conspiracy theory crap. I'm thinking that Victor is part of the problem but I haven't made it my business to look into the performance of some possible others who are batshit crazy along with him. (them)

I suspect that the owner is more interested in 'posts' volume than anything else. Still, it's worth it to me to test it until I get axed by some kook like the breeze.

You really need to work on your obsessive preoccupation with Thoth.

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56 minutes ago, OceanBreeze said:

Why are you using two objects that are connected to water lines in one way or another? You say there is no water pipe connected to the bath but does not both the washing machine and the bath have drain pipes? If the led lights there must be a complete circuit.  Try disconnecting both the water inlet and the drain lines from the washing machine and repeat your experiment. Even better, don’t use any device that connects to water lines at all; try two metal filing cabinets sitting on a tile floor. This experiment is nonsense and the only person who is being fooled here is you.

I do not use two objects that are connected to water lines.
I have made successfully also other variations of the experiment where I have used other metal objects which have nothing to do with water lines. The bathroom was only a more suitable place to make the video than the other places. 
 

Quote

This experiment is nonsense and the only person who is being fooled here is you.

The time will tell. Just sit back and relax.

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