It was there by faith I received my hi sight and now I am very good. Let's come on in, ladies and gentlemen. We will get back started here in just a moment and you can go ahead and be seated. Take your seats together. Hello. I lose them every time. Every time. Where's my pot? In my wooden spoon. That's what I need. Yeah. Let's sing another verse. Here goes via, of course. Let's all sing it, ladies. Doing at the cross? At the cross where I first saw the light and the burden of my heart rolled away my faith I received my high sight and now I am happy holiday. We got it. Thank you, ladies and gentlemen. I hope you had a good and wonderful break there and welcome back. Those of you who come online here. I'm going to get something set here. Let's see. And since I can't figure out how to do it but there we go. Welcome back. By the way, we had Chuck and Myra from Weatherford, Oklahoma come in during the last broadcast. Welcome, Chuck. Welcome, Myra. We're glad you're here and got Jean and Frank back late, but we're glad you made it from Albuquerque. Anyway. So let's have a little word of singing before we get started. We've got Linda. Where'd you go, Linda? Come on down. And ladies, we've got Beauties and the Beast singing for you tonight on a lovely song that you'll know you can tap the toe along with it a little bit and let's go back. You can sing along if you want. Swing low, sweet terrier here we go. Left to be coming for carry me home to all my friends sometimes I lost and sometimes I'm down that was in the style of Elvis, so thank you. Thank you very much. Always a little bit of fun there. Coming forward to carry me home well, as we get back started there oh, there's the Garden of Eden, just in case you want Thomas Cole. I don't think that's what the Garden of Eden looked like, but that's the way he pictured it anyway. Oh, there's our Adams. I'll leave that picture up there for a little while there's. Let's call it the nucleus and the protons. And here's these electrons swinging out about and it's those electrons would get moving in order to create electricity. And with that, then, we are going to go into session two and session two of our Task prophecy conference here is on your health, your makeup, your cellular makeup and your electrical charge. I read not too long ago this book here that I thought it was so good that I went ahead and ordered some copies and I thought it was so good that I'm giving you 30% off of those copies if you happen to want to get one. It's called rapid virus recovery. Rapid virus recovery. I know that we don't know much about viruses, but nonetheless, rapid virus recovery. No need to live in fear. It helps explain some of this stuff about electrons on the cellular level and how they work. So if you're interested in more and let's just put it this way, in a simple way, how electricity can affect your health. And you might want to pick up a copy of that book that is back there and those online, we will put those available at the Dispensational publishing site here soon. But let's talk now that we know the constitution of the world we live in, the makeup of the world we live in, that God originally created all the stuff and then he energized the stuff to hold it together. And that energy then drew it together and separated light from darkness. As we have looked at, we know that God's nature because we learn as we study. I think you can take Romans 120 that we ended in and say if you study things on the molecular level, you indeed study God, because the invisible things of God are seen in the things that were made. And so figure out how it's made and look into that and you begin to study that and you begin to understand God, that certainly God is a God of energy because there is not a single atom that does not contain energy. Not a single atom, really, you couldn't make electricity out of and use that. Again, as we mentioned, some would be more difficult than others, but you can do that. So God's nature includes energy. Now, if indeed God's nature includes energy, say that one more time in a different way. God's nature includes what? Energy. We could almost say God's nature includes electricity because that's the kind of energy it really doesn't matter what car you drive. It's an electric car. It uses the electricity in a different way and gains the electricity in a different way. But your internal combustion engine uses an electrical spark in order to have a little explosion inside and push that piston down and the other one up. That's how that works because we're all mechanics. But it's an electric car. There's a different kind of electric car, too, but nonetheless, electric car, you got to have a battery, you got to charge it, and it's got to work. Now, if God's nature is energy, and we know that because absolutely everything that's created on the atomic level is energy, then what about me and you on a cellular level? God's nature is energy. And according to Genesis, chapter one, verse 27, it says so God created man in what his own image it is, if our hypothesis is correct, the movements, the fluttering of the Spirit of God that energized, which means all of this energy ultimately comes from God. And then God created light to set that as a cycle that was going to continue on into eternity. So let's take that Romans passage again. We know the invisible things of God because we studied the created matter. The created matter tells us that absolutely every atom has energy in it. So much so that atomic energy is the most powerful kind of energy that you can have. And therefore, if that tells us something about God, which is a dumb if, because Romans 120 says that tells us something about God. So that telling us something about God, then we know something about ourselves. Why? Because Genesis 127 says god created man in his own image. If God is electrical, then what are we? We're electrical. And we often speak even in these terms. We say, Boy, I just don't have any energy. I just need to recharge my batteries. It's been a really busy week. I'm just going to go home this weekend and I'm going to unplug. We talk like we're electrical things. And I think the reason we talk this way is because we are. It's not just an illustration. That's who we are. Again, my premise you can reject the premise, but my premise is God must be electrical. I know that because the created order is electrical. And the created order, according to the Bible, tells me about God. And then I know that I am made in God's image, therefore I must be electrical. Anything wrong with all that so far? Seems kind of logical, doesn't it? And, oh, I got one if. Don't you need to go somewhere? You take this there. Let's go back to the pictures of the Adams and we'll talk later. You take that premise here and that we're in the image of God. We're electrical. Let's think of this now. What are you and I made of? Well, first of all, we know what we're made of. If you're a male, then slugs and snails and puppy dog tails is what you're made of. And if you're a girl, then sugar and spice and everything nice. That's what you're made of, right? We also know that Adam, the first man materially was made out of what? Dirt. Okay? Dirt is a bunch of those elements, right? It's atoms. And every one of those is charged. But then something different happened and that God gave it the breath of life within that. But you and I, we really are just trillions and billions and get bigger. Trillions is way too small. But we're trillions of atoms that come together to make trillions of cells. A cell is not an atom, but a cell is made of trillions of atoms. And every one of these atoms is, by its very nature, electrical. It's got electrons, it's got protons, it's got neutrons. And all these come together and they work with mitochondria and some other things that we won't get too deep into the subject at this hour at night because I can't get too deep in the subject. But all those Adams come together and they make sales and the cells get their DNA and their instructions and they do their unique role in the human life, and each of the trillions of atoms within us are energized by God. I think in its original creation, there's this natural law called the law of conservation, which says you don't lose any energy. You transfer energy. You pass energy around a little bit, you don't lose any energy. So that original energy that came into the atoms by the fluttering of God is the energy that we have today and the atoms that are around today and all these kinds of things that take place. Now, cells are born and cells die, but those atoms don't. They go and make other sales and transfer on, and eventually from dust you are created, into dust you shall return. But we have right now these cells that are energized. So all these electrons and protons moving around us, electrons again, we mentioned this earlier, but electrons are the same thing that power excuse me, power a light bulb. Electrons flow into it. There is no difference between the electron that powers a light bulb and the electron that is flowing through a copper wire into the light bulb, making the light bulb bright and hot. No difference between that electron and the ones that are making up ourselves. As a matter of fact, you can look up a few experiments excuse me, and find that if you work it just right and have a low voltage light bulb, you can turn on a light bulb just by your own electrons. It's possible. You've seen the experience. I have a hard time with the word experiments. You've seen the experiments, haven't you, where they make a potato, turn on a light, a potato. How do you do that? Well, every atom has electrons, and electrons work light bulbs, along with a lot of other things. So you and I are electrical. We got you might call it potential electricity because it's not flowing through wires hooked to a switch, turning on and off, but nonetheless, it is there. So you are electrical, and I would say that your health. And as a pastor, I want you healthy. I haven't got time for you not to be healthy. I want you to be healthy. Well, for you to be healthy, you basically got to have healthy electrons. You got to keep this electrical thing going. You got to have your batteries charged up. It's got to work, and you've got to be an electrical generator, because when your electricity gets drained, you're not going to make a very good church member. You're not going to make a very good Christian. You're not going to make a very good person. You're not going to make a very good we had a question, I think it was today, and I asked theologian about one thessalonians four, I think it's 13 that says do your own business. Well, you're not going to do your own business very well if you don't have any energy to get out there and to do your business. And so if you don't have the energy, you're not going to be worth much. Or if the circuits within you are not operating very well, you're not going to be worth very much. And what good is a church full of people who aren't worth very much? Right? We want to be worth something for our Lord. Now, can we sound a little scientific for a moment and talk about redox? You all remember what redox is. It's a word made up from two words reduction and oxidation. Reduction and oxidation. Do you feel like you're back in the 10th grade learning about sales? Redox, reduction and oxidation. One is the opposite of the other. It goes together. You can't have reduction of one thing without oxidation of another thing. You can't have oxidation without reduction. And basically, redox is reduction. Oxidation. All it is is sharing electrons. If you are the taker of electrons, then this gets a little confusing. I don't know why it's this way, but if you're the taker of electrons, you have been reduced because electrons have a negative charge and therefore you've been reduced. But electrons is what you want, so don't look at it as a bad thing. If you are the giver of electrons, you have been what's the opposite of reduction? Oxidized. You've been oxidized. And that's redox right there. Reduction takes place when a molecule or an atom gains an electron. There's little electrons flying out there. If one of these electrons and typically they would come out from the inner cycle here, but from the outer one up here, if one of them it's kind of like walking a dog. You know, you got some dogs that walk really close and stay in their very obedient. And then you got other dogs on a long leash, and when they see a squirrel out there, they are out of here. They are going, some of those electrons are out there and they're just free and easy out of here, and they're going, well, when that happens to this particular atom, then that atom, we say, has been oxidized. But some other atom gained it and it's been reduced. It has received one. And so that's reduction. Okay, now you know all about redux. Are you ready for the test? Good. It comes too important. If normal, healthy cells are oxidized, they begin to not function properly. They don't want to lose those electrons. They need the balance of all of this. Their magnetism isn't quite working correctly, so it loses those electrons. If cells in your body lose electrons, you are not going to feel well. Maybe you'll say, I'm tired. I need to recharge my batteries. I need more electrons. You'll get tired, this continues to happen. You'll get sick, this continues to happen. You will get what eventually is called oxidative stress. Oxidative stress is not something that you want. That means you've had so many of your cells giving up their electrons that things are really just beginning to cave in. The cell can't keep doing this. It's got to be recharged. Got to get some more gasoline, so to speak. If this continues, eventually, depending on what's happening and where it's happening in your body, you might get a chronic illness, a chronic illness, kind of ongoing type of thing. And I mentioned some of them here. Arthritis, immune disorders, heart disease could express itself in any number of ways. But if you got any of those, it's oxidation is your problem. Quit being oxidized. What you got to do, quit being oxidized. I'm not giving up those electrons. I need those. And eventually you die. Scurvy. Anybody ever had scurvy? Probably not. But you've heard of scurvy, right? It used to be the sailors that were getting it. The what? Good, because I get limes to overcome scurvy, because limes are full of vitamin C, as we would call it. Limes are full of vitamin C. And guess what vitamin C likes to do? It's an antioxidant. So vitamin C will oxidize itself in order to help something else. Isn't that kind of vitamin C? Vitamin C, basically, again, if you're an electrical engineer, this illustration might not go perfectly, but vitamin C is kind of like copper. Copper says, yeah, you all can flow through me. Go ahead. I'll send you off the light, the light bulb and vitamin C. Yeah, I'll help you out. You need a little reduction because you got too much oxidation. I got some. I'll give them to you. It has these electrons that are sort of like that wild dog, except it loves to come lick you in the face. That's vitamin C. So, yeah, they would eat that. But you know that someone who gets, again, a medical doctor would probably argue with me just a little bit on this, and likely there would be some validity to their argument. But if you get a virus and that virus leads you to oxidative stress, you basically have scurvy. Scurvy is oxidative stress. You come to the point where there's just not any more electrons to give eventually, and you'll die of oxidative stress. I ran across a couple of very interesting things. What's a fancy word of calling someone who's drunk? Intoxicated. Thank you. I knew from Southern California we would have this intoxicated. They're intoxicated because they're filled with toxins. A toxin is obviously a poison. Every toxin doesn't matter which one it is. Every toxin is an oxidizer rather than an antioxidant. It oxidizes. That is to say, alcohol. When it comes into your system, what does it do? It says, I love electrons. Oh, yeah. Give them to them, and it starts taking those electrons. Well, then what happens is your body starts functioning improperly because it is occurring, it is enduring some oxidative stress. I'm almost afraid to say this a little bit, but do you know that they did this test with mice in which they gave mice a bunch of alcohol and the mice got drunk. They gave mice a bunch of vitamin C and alcohol and they didn't get drunk. Well, that's interesting. Why? Because the vitamin C compensated. It said, you take my electrons. I'm here to help. This little poor little mouse. My wife's been killing them left and right here lately. I'm here to help. It's very interesting what can happen, how toxins and all toxins are really the same again. They may affect you more quickly. They may affect a different part of the body. They may affect slow, fast, whatever. But they all do the same thing. They vacuum up the electrons. And the lack of electrons or the oxidation of your cells is what causes you to get sick and eventually die. So it really is an electrical issue. Now, let me give you an illustration. Swimming pool. Most people in towels, of course, have a swimming pool. Actually, Southern California. Excuse me? Most people in Southern California have a swimming pool in towns. We don't have much because there's three days of the year that it would be nice to use. But you got a swimming pool, you want to keep it chlorinated, right? You actually don't even care if it's chlorine. You just don't want it to turn green. Whatever it is that keeps it from turning green and smelling, getting all the bacteria in it, you don't want that, right. So what do you do if anything alive gets in your pool? Especially on a microbial level? You know what you want to do? You want to oxidize it. That is, hey, little microbe, will your dog go for a walk with me? And if you can find something that will convince that microbe to give up its electron in another, eventually it'll die. It'll get sick and it'll die. So you just got to get the microbes to give up their electrons. That's all you got to do. And it will die. That is an electrical process. This is how I know it's an electrical process. They have these little sensors that put mostly in public pools, or you could have them in your own personal pool, but most people don't. Most public pools, however, would have a sensor in there. It's called an ORP sensor. That is an oxidation reduction potential. Sensor. You got it. What's the oxidation reduction potential of this pool? We want the pool to be oxidized because we don't want anything to live in the pool. So they put this sensor in there. Guess what the sensor does? It measures the electrical level of the water. And if the electrical level of the water is at a positive level, then there's not too many electrons going around in there, and therefore, you don't have to worry about it. You could drink the water. You can swim in the water or whatever because there's not enough electrons to sustain life in the water, microbial life. So you're not going to get sick from drinking this water or swimming in this water. And they do that by checking the electrical level. Now, in this case, it's millivolts instead of volts. But nonetheless, that's the way they do it. And it doesn't really matter if this thing doesn't measure chlorine, it measures electricity. What's the electrical pulse of the water? That'll tell me whether or not anything can live in it. Again, if there are too many oxidizers, it's going to have a positive millivolt and whatever it is, is going to die. So your water is going to be crystal clear and blue and lovely, and you're going to go swimming in it. And incidentally, they use these at city water treatment plans, water supply places to make sure what's in here? Well, I don't know, but nothing can live in there. So send it on. Let them break it. It doesn't have the microbes in it. It's an electrical kind of issue. So an oxidizing agent, that's something even if we don't know about all this, we've all heard about oxidants and antioxidants, right? As a matter of fact, what do you put in your laundry? OxiClean. There you go. OxiClean. Or maybe you would put hydrogen peroxide, all those ox. If you stick an ox in there, it'll take care of the stain. Now, how does it take care of a stain? And by the way, hydrogen peroxide, which obviously is an oxidizer, cellular stains better than anything. Like if you get a blood stain, go for hydrogen peroxide. But you can do it on just about any kind of stain. If you get an oxidant, what's to do? It is going to take out of those atoms, the electrons going to take it to themselves, that's an electrical flow. And taking it to themselves, those cells are eventually going to die and they're going to lose their color and they're going to lose their grip and they're going to come out of your clothes. So it's an electrical process that cleans your clothes. Do that or stick them in the outlet. No, sticking in the outlet would go the other way because it would bring electrons in it. It would be an antioxidant, but that can be bad for you, too. So on the cellular level, you and I have this electrical thing going on. And this is why sometimes we feel, boy, I just don't have any energy. Literally, we don't have any energy. We've given it all up and it has ended up being flushed down the toilet or something. There goes all of our electrons. All of our energy is out and we need to be literally energized. We need to have our batteries recharged. It works this way even with non cellular life, non biological life, if you stick iron in the water, it eventually gets oxidized and you end up with rust. The iron loses its iron nest, doesn't it? And you end up with a rusty old nail, is what you end up with. Why? Because it lost its energy. By the way, you heard of Galvanized nails. Does anyone know why they're called Galvanized a Galvanic electrical process? Do you know why it's called a galvanic electrical process? Because Mr. Galvan discovered it. I just wanted to bring that up. Literally, a guy named Galvan discovered, hey, we can do this. What's a normal nail made out of? Steel. They'll rust. After a while, they'll oxidize. But if you put zinc around it, zinc is like vitamin C. Zinc says, you can have mine. I'll give it to you. And so the zinc comes and says, I'm here to protect the iron nail. Don't go for that. And so they put zinc around it, because zinc is kind of it doesn't take care of his dogs very well. It doesn't keep him on a leash. Go for it. Go play with the neighbors. And so the zinc actually protects the nail, and the zinc gets oxidized rather than nail and makes the nail last much longer. Well, again, whether it's on a non life level, an atomic, non biological level, or it's the atoms in your cells, it's exactly the same thing. It's this flow of electrons. It's do you have a balance of electrons, or have you lost electrons? So it comes along some way, and you end up with electrons that aren't healthy or cells that aren't healthy. The problem is they've been oxidized. They need some electrons. Lack of sleep can bring this about, so that's why lack of sleep I'm not feeling so good, all right, I got to lay down. Some sleep will allow all that to energize itself and come along again. And so if your cells are oxidized and every toxin will oxidize your cells, every single toxin, they're all the same. They will oxidize yourself. If this happens, then your cells will not be healthy. They will not grow. They will not do what those particular cells are supposed to do. It might be on your skin. It might be on your lungs. It might be in your brain, whatever it is, but it's not going to work correctly. It's not going to thrive. It's not going to function. And so you're going to get tired. You're going to sick. You get sick. You may develop some chronic illness, and eventually you're going to die. So if we can figure out how to keep ourselves from oxidizing, guess what we're going to be. And how many of us want to be healthy now, is anyone yet thinking we're supposed to be talking about the Bible again, I want to say, in a sense, I think we are, because we have this energized world that tells us about God. We're created in the image of God, and therefore, it's all about the energy. It's all about the electrical flow through us that keeps our bodies healthy. I am convinced now, someday at my funeral, you may say, well, he was wrong on that one. But I am convinced that you and I ought to die of an accident. We ought to fall off the ladder or get run over by the car or something not sick. And yet most people die of being sick, right? And every single sickness I know this will be a shock to you, but every single sickness there is just means you are oxidizing too many cells. This particular oxidation they might call cancer. This particular oxidation they might call the flu or the pneumonia or whatever it is. But it's a toxin in there that's oxidizing the cells. So if we can figure this out and spot it quickly and be able to bring in something along that says, hey, oxidize me, instead of that, then we can overcome so much illness in our lives and so much lethargy and dysfunction and all these kind of things, we can get them in there. Now, here's the exception. Some toxins do go to work so quickly and they are so powerful that you can't address it fast enough and you get one of these toxins, you might die of oxidative stress. It could happen, I don't know, a rattlesnake bite or ten if you don't cut that thing off. And I don't mean cut the leg off, I mean tourniquet. Try to keep that poison from going through, you know, try to get some kind of antioxidant to it real quick. But an antioxidant and every antioxidant, and any antioxidant in the right strength will overcome whatever toxin there is. And it almost doesn't matter. You just got to get at the antioxidants, because the toxins that are going to take that again, that's why they say, eat your broccoli, eat your broccoli. It's got antioxidants. And we think sometimes we think, well, antioxidants just keep us from getting cancer. Well, they do because that's oxidation. But they also keep us from getting viruses, and they keep us from getting almost even to the degree of sunburn. Sunburn is an oxidation process that takes place, and it goes in so many different ways. Now, you say this, okay, I never want oxidation to take place. Well, there actually is some good oxidation that takes place in your body. Your body does somewhat understand that the oxidation process can work. For example, when you eat a piece of chocolate cake with a bunch of ice cream on it and chocolate syrup on the top, you want something in you that will oxidize that, that will oxidize fat and all. So metabolism really is your body using oxidation to your favor. Say, here are some things that we want them to die, and so we're going to send out some oxidizers to make that chocolate cake die a happy death or a quick death. So oxidation can work for you. As a matter of fact, when you think about the things that happen in the body, some good things on oxidation, when you work out, you say, I wish I had a bicep. That would be. Nice. So what do you do? You get something, and you start lifting it. And what happens to your muscle? It gets sore and swollen and all that kind of stuff. Why? Because it's been oxidized. Actually, it wasn't getting enough. You stressed it out, and it got oxidized. Well, in this case, the body recognizes the problem and says, oh, hey, we got a problem over there in the biceps section. He went crazy today. And he lifted that thing three times. Boy, he went crazy. And so your body is smart enough to say, send some electrons, need electrons. And I'll say, and your body will send electrons over there and refurbish it. Well, guess what your body does if you do that again tomorrow. And the next day and the next day and the next day. The body keeps saying, we need more, we need more. We need them over here. And it strengthens that muscle because it keeps getting oxidized. So the body is pretty smart in fighting this. Our whole immune system is really about how to oxidize the things that need to be oxidized. How do we get rid of a toxin that's in there? And there's a theory I'll put it out that way. There's a theory that even says our body produces an interesting word produces or at least welcomes certain toxins in the terms of bacterial toxins at time to say, we could use your health. Come on in. Do you know that they did a study of what's the bacteria strepholocaucus is? That how you say that strap. It's a bacteria often gets in your throat, and of course, it grows, right? And it begins to want some electrons, and it takes those electrons and whatnot. But they've actually done some study to say that if we took strep tests here tonight, maybe 50 or 60% of us would turn out positive. We all have strep. That the Bible. The Bible. I am a preacher. The body actually welcomes strep because it says we got some things that we can't take care of very well. But this little bacteria, man, is it a good vacuum cleaner. We got this fish tank in our office. We always keep it pristinely, pure and clean. It has two fish. It originally had a lot more fish, but they got oxidized. It has two fish. One's a little tiny fish that's been from the beginning. The other one was about this big. And I was in Santa Fe, and I went into the pet store and said, I need something that eats algae. He said, Take this. This is what you want. I said, Let me have three. He said, you want one? Okay, I'll take one. This thing is, like, huge now, and it's basically the only thing in there other than that other little fish. And he's scary looking. Don't go in at night. Look at this. What is that? It'll suck up the algae. Now, the body sometimes welcomes these bacteria and saying, hey, you could help us say, strap, we got something worse here, you could kill it and then we'll kill you. And so the body uses this oxidation process for its own benefit. At certain times you get these. Now, this is one of the reasons I think you ought to be careful with antibiotics, because antibiotics just kind of go in and they sort of just start oxidizing everything. I don't know, I got to kill it. And the body is pretty good again at knowing the neighborhood. We need some oxidation to take place. If you take some antibiotics and you've got an infection, it's going to be pretty good at saying, okay, let's pick this up. Here's an oxidizer, let's take it over here, let's let it do the work. The body is very smart in that regard. And yet some of you, I know, have had issues where you take some antibiotics and the antibiotics work so well that the cells in your body began to all be oxidized. And you have sepsis, which is oxidative stress on a massive scale, and a lot of people die from sepsis. You got to be careful with these things. I think that you and I probably ought to use antibiotics only when the body and every natural resource we give it can't keep up with the toxin that is there, then maybe we can say, okay, I tried everything else. This might happen sometimes. For example, if you go into surgery, they're introducing some things into your insides that you wouldn't normally get there. And you probably want to say, okay, my body is going to need some help here. I might need some antibiotics here, but don't run out and get antibiotic every time you get a sniffle. Your body can handle that. And eat some broccoli and take some vitamin C and all these kind of these antioxidants and take them in there and it will begin to work. Now, again, all of this is an energy process. It's electrical flow going through your body. And so you want the oxidation that your body is going to use to get rid of trash that is there, or to strengthen muscle group or something like that. That's all good, but basically, other than that, you really don't want oxidation. You want the body to keep its electrons, to keep its energy, to keep healthy, to keep fueling the various things that those cells are supposed to do. Now, so maybe we've established every cell in your body is made up of atoms, which are made up of electrons and protons. And electrons are what we get electricity out of, and electrons are what gives you energy. Electrons is what keeps your cells healthy. If some suckerfish comes out and takes those electrons, you are going to be sick. If you are sick, it's because you've got an oxidation problem, period. Every sickness is an oxidation problem. Figure out how to take care of that. You've taken care of the sickness. Some of those sicknesses are going to be more stubborn than others are, but nonetheless, that's the problem you've got. Now, let's talk about how electric the body really is. Have any of you ever had an EKG? A lot of EKG. What do you call the word there? I've got a word an electrode. Stick a couple of electrodes on the skin and one's an anode, one's a cathode. We won't go into too much of that. But an anode says, I'll give some and the cathode says, I'll take some. And you put one on each side. You got a positive and a negative and you created a circuit. And that circuit, the electrical circuit is sensed by that electrode, goes out, makes a little jiggle, comes back in your body, makes the full circuit there. So your heart problems, what are they? It's an electrical problem. And if your heart is not beating right, won't keep the right pace, what do they do? They stick a little thing right in your chest, right there, that says, I'm going to keep that pace going because your body is not sending the right electrical signal. I'll send the right electrical signal so we know that we can electrically keep the heart alive. Your muscle movement is actually electrons. We know this because back in John Wesley's day they discovered that they could get electricity. Of course, in that day they were getting static electricity and they were doing it often from amber, not the girl, but the stone. Amber loves to let electrons flow. In fact, I think electron is the Greek word for amber. So they would rub amber and amber would say a piece of wool and the electrons from the amber would go into the piece of wool. And whatnot they learned some ways to store this, keep it and use it for shocks. They also learned that you could hook up the wire from where you got this electricity. You could hook it up to a frog leg. And when you send some of that into the dead frog leg, the frog leg would move. Do you know, it was decades before Mr. Volt came along and figured out how to kind of measure the movement. Literally the way they measured how much movement is they put ink on the bottom of the frog leg and put it in and it made an EKG. It drew on the paper and they could figure out, we got this much or we got this much and that's the way they did it. And it was the electricity in the muscle that was causing that thing to move. If you get the John Wesley book, he has some illustrations there that would not be fit for our audience today because they were doing awful things to animals in these electrical things. But there were even people who are going around with dead bodies saying, look what I can do. And they literally would send electricity in the dead body. And electricity, you get some electricity in the body, it'll start its dancing. It will start his movement, and it makes quite the sideshow. I can make dead men dance. Watch. And you can moving on. You can read that in the Reverend Wesley's book back there if you would like to do that. But we are so electrical that the way they measure how well we're doing, especially in the heart issues and the circulation issues is let's check that. But not only that, there's the EKG. There's also the EEG that measures the electricity out that's coming out of the brain. And it measures it much the same as the EKG and the heart checks that electrical signal. Now, on the cellular level, it's all about, do I to sell, have all the electrons I need, or has something come and robbed me of those electrons? I've given away all my electrical flow. I don't have anymore on the neurological level because if you have a toxin, an illness, a sickness that is cellular, but you could have a neurological problem, and that's not really from oxidation. A neurological problem means you've got a wiring problem, but it's still electrical. We're not getting the right signal. It's sending and taken care of. But it is very electric. How electric is it? It is so electric that every one of your five senses can be replaced with a machine. Do you know that? Every one of them. Now, we're not very good at doing some of them, and we got a lot to learn, but everyone have you ever heard of a guy named Elon Musk? Elon Musk, he's got a company called Neurolink, by the way. Neurolink, one of SpaceX and Tesla. And how many companies does he have? Twitter, but he got one called Neurosink. He says, the day will come when you can if you have a Tesla, you will be able to think about your Tesla coming to pick you up to take you to work. And the Tesla will start and drive up to the door, and you'll get in. You don't go to your phone. You don't flip a switch. You think, come, Tesla, and the Tesla will come. Say, that's impossible. Really not. You know, there's a guy that they have given a very good arm prosthesis. Is that how you say this? Prosthetic arm. Fake arm. He's got a very good one. And he has a good sense of humor, too. And because it's so good, he loves to play the game of take the arm off, set it over at the table, and during dinner have it start crawling across. By thinking about it. Literally, he's thinking about it a fake arm. Lift up your finger. Lift up his finger. By thinking about it. Now, this is reality today. This is not some science fiction out there. Maybe we'd be able to how does that work? Well, we can do a lot of things wirelessly now so we know how to send signals across the wires. And if you understand, let's say the nerves in the arm. The arm is fairly easy because it's a limited number of nerves. I don't know, maybe 128 of them or something like that. But you figure out nerve wiring only goes one way. It's either coming or going from the brain. They're not two way streets. It's coming or going. So you hook up a lot of things and you figure out, okay, what's coming, what's going and then you send that signal. When this gets a signal, I need the arm wire to get this signal and that signal will carry across as a matter of fact. Do you know that they have just to show what they can do sometimes they will put some electrodes on, let's say my arm. I thought about getting one of these machines because I thought it would be a cool illustration to give. Let's get some illustrations on my arm and some illustrations, some electrodes. I am a preacher. It always comes a preacher word, electrodes on my arm. And then let's call a volunteer and have the electrodes go over to their arm. Do you know that if you get those in the right place I can control their arm? They will be out of control. Why? Because we got to send the signal more strong than the brain is going to send the signal. Because their brain is getting signal. But if one overpowers it electronically when I wave they will waive. There's absolutely nothing they can do to keep it. Now again, you got to get all the electrodes hooked up correctly. But it is possible. Why? Because the waving of the hand is nothing but electricity moving through and in the neurons. It's just like a computer. Remember computers work in a binary language. Binary means what? On or off, right? It's on or off. And in a computer there's just 10,001 different ons and off. Do you want pink on or pink off? Purple on or purple off? And it goes all through these ons and off and you end up with what a computer does. Well the neuron is the same way. It sends an on signal, it sends an off signal. That's all it is. It's binary. It's a computer. So it can do that. Now. Okay, so you're not too impressed with the guy that can make his arm walk across the table. Do you know that they have it now where if you touch the prosthetic finger on that prosthetic arm he can tell you you touched it and which finger you touched and all that kind of stuff. This is important if you do have a prosthetic arm because what if you want to pick up an egg versus pick up a brick? It picks a different grip, doesn't it? And you know that grip by your feeling. Well, it's just an electronic signal that is going telling your brain, hey, I got something on the ring finger there is pushing really hard what's going on. So it sends the signal to the brain. The brain does it. That kind of muscle neuron movement, electrical signal, that's the easiest one there is. It gets much more difficult, let's say on something like hearing, and yet your hearing is electrical also. You ever heard of a cock clear implant? Is that what you call it? Cock clear implant. The cochlea is a little as I envision it. Remember how those cornucopias look? Stick that in your ear, little horn and it's got thousands of little hairs in there. And when sound waves come in, it wiggles the hair. And the wiggling of that hair sends a signal to the brain saying got a sound wave coming in at level two. And this is what you hear by the wiggling. It's an air movement kind of thing and you hear that the sound wave movement kind of thing and you hear that. Now, some people are deaf, the connections are not there and they're not working. Incidentally, by the way, do you know that when you have a deep voice or a deep sound, the waves, I think they're thinner, they wiggle more, they go down deeper into the cochlear and they wiggle the hairs down at the bottom. That's how your ear hears, whether it's the top or the bottom. Well, a cochlear implant, it says these hairs aren't working and it sticks a wire down there. Basically, there's a microphone, excuse me, a microphone on the outside of your ear. Very tiny, can't really see it, but there's a microphone on the outside of your ear. The microphone picks up the sound like this one right here is doing and the microphone sends it down in and the microphone through all of its wiring says this is a deep sound, this is a high sound. Let's send this to the top of the cocklist, to the bottom of the cocklist. And it varies. Now, the issue, and they're getting much better with this, but the issue is you got thousands of ear hairs and for every level of sound you got to have basically a different channel. But it's all electronic. Guess what they have figured out now? I think they're up to 124 channels they can get on this. So someone with a cochlear implant can hear the various levels of sound pretty good. They got 124 speaker system coming in and literally they are hearing it. It's not like a hearing aid that amplifies, it literally is sending to your brain saying this is the sound that we're hearing. And your brain hears it just like that. It's the same. It just begins to get more and more difficult when you get to the eyes and the catching of the light. They do have, however, for blind people, they've got literally cameras that receive the signal. They send in the message through the nerves that go to the eye and say, hey, brain, this is what you're seeing. The problem with the eyes is you think a 4K TV is good. I mean, our eyes go so much bigger and brighter and better than that. We see so many more colors that they haven't got to the point where it has the full range of color and of brightness and all this kind of stuff. But nonetheless, it is to the point where a blind person, obviously in a testing stage, but a blind person could get these and they would be able to say, there's a car coming here's, a person walking right here, and they would be able to pick these various things up. I wonder, and someday maybe I'll dig into it and study. Remember when Jesus took mud and spit and put it on that guy's eyes and the guy I see men, but they're like trees and something else happened. It's kind of a weird story, wouldn't you agree? I often wonder, did that have something to do with electrons and bringing life back to the neuron somehow to get this signal going again? I don't know. Maybe the mud and spit has something to do with maybe it's something else. I have no idea. But it's an intriguing idea nonetheless. This is the way our body works. By the way, if you think site is big, taste and smell or even we have so many channels in taste and smell that science is a long way off to getting to where you can take things beyond, yeah, I got something on my tongue. It is sweet. It is sour. That's all I know is sweet or it's sour. We got all these sensors on our tongues and in our sense of smell. And as a matter of fact, our sense of smell and our sense of taste go back to the same area of the brain. And so you got to work on both of these. But I say all that to say guess what runs it? Electricity. Electric. And by this electricity, our body works. Have you ever heard of shock therapy? It doesn't sound very good, does it? Shock therapy. And there's been a few movies out there that made it look even worse. But actually it's a pretty proven therapy for a lot of different things. They call it something else. Not shock therapy because that sounds like a Sci-Fi movie and kind of scary but stubborn. Depression, that's a neurological problem. Shock therapy is very effective. You can go home and look it up if you want and it'll tell you the actual name that they use for it. And it's not this doctor spot kind of thing that we would think of and Dr. Jeko kind of stuff that we would think of in this. It's a neurological issue. Causing some people to have severe depression or bipolar disease is a neurological thing. So if we could take electricity and electrons and say that could heal me. If I get this right, it could heal me on the cellular level. And if I get this right, it could heal me on the neurological level. Well, the only thing left to do is die in a car wreck. I'm overcoming so much sickness and illness now. Again, I might die of illness. Maybe because I didn't get enough sleep and I didn't eat enough broccoli and I didn't feed that electron process. Or maybe because I got bitten by a rattlesnake and the toxins went to work so fast that I just couldn't get there and couldn't fix them in time. Maybe you have some toxins in your body that you don't even know about and you're continually living with them and your body is there. But over time those toxins are causing heart disease or something like this that take a long time to get and a long time to reverse. And maybe I'm going to die from it first. There are these issues, but if especially from the beginning, you understand, I got to feed the electrical system. I got to figure out how to take this. I am created in the image of God. That means I'm created an energetic being. As an energetic being, I want to figure out how to best do this. And by the way, I think vitamin C is your friend, right? I mean, it's the way of galvanizing your cells. Take this instead of that, do it. And any kind of antioxidant obviously is going to work. Some antioxidants are going to work better. And as you study antioxidants, you're going to find that some antioxidants, you literally can't take too many of them. And so, hey, you don't feed it if your body doesn't want it. It'll send it the way it sends all the stuff that it doesn't want, and all will be well. But I think there's so much that we can do to make us healthy. Now just imagine as I come to a conclusion here, just imagine that Christians believe the Bible. How's that? What a novel thing. Christians believe the Bible, and the Bible says you can know the invisible things of God by studying the things that are made. And so a Christian says, okay, I want to study things that are made. Well, I think I'll start at the foundational level, down at the atomic level. Let me figure out how the world is made. Well, it's made with all this energy in it. Well, how am I made? Well, I am made in the image of God, who must be electrical because that's what I see here. And so Christians, what if believing the Bible, they decide, I've got to do everything I can do to make sure redocs is working in my favor and making sure redox is working in my favor? What if Christians live longer and weren't as sick as the general population? That would be interesting, wouldn't it? Do you think that would be a good growth strategy for the church. We've kind of said, hey, Christians are happier, healthier, everything else. But the truth is, the statistics don't really show it. Come on in the prayer meeting. We'll pray for you. You'll be healthy. What if Christians just said, I got to get the energy flow right here. This is the way I made up the body reveals, this is the way I made up. And so Christians began to do this and because of this, they began to learn what's going on on a cellular level or on a neurological level in my body. And being able to understand that and being able to say, okay, I've got something here that shouldn't be. Maybe it's high blood pressure or maybe it's headaches, maybe it's whatever. This shouldn't be like this. So how am I going to combat it? I'm going to combat it. Figuring out I got some redox imbalance here, reduction oxidation. There's too much oxidizing going on, so I need to figure out something. By the way, you galvanize with zinc. And zinc is a pretty good antioxidant. By the way, it'll give up its oxidant. So I need to take some zinc. I got the sniffles this morning. I shouldn't have this. I got a sore throat. What if Christians knew the way our bodies were made up just from reading the Bible and okay, 3 hours on a Friday night and you didn't go to medical school, you didn't get a biology degree, all that kind of stuff. But you understand that this is what the Bible reveals and this is what science reveals on a level like this. And we began being healthy people. I think our friends and neighbors would take note. They seem to be healthy. What makes you healthy? Vitamin C. But I learned that these things make me healthy because blah, blah, blah, blah, blah and we go on. I'm created in the image of God. Ultimately it comes. And so I'm a person of energy. I'm a person of electricity. I make this work and I make this happen. There all that is now we'll close. This is the first time I've ever finished six months early. But we're going to take that concept tomorrow and turn it in. Look at the energy world outside of our bodies. We started out the foundation of just how the world works. Then we looked at how our body works. Now tomorrow we're going to look at kind of the energy that we use because we like to have lights, don't we? And we like to have cars and we like to have all the stuff that the energy uses. If energy is inherent in all matter, how does that then carry over into energy and energy policy and our attitude towards energy in the world that we have dominion over? We've been given a dominion over an energetic world. That's what we're going to talk about tomorrow. And it'll be kind of interesting and not political at all but a Saturday morning, once again I feel the need before I close because I'm five minutes early. Don't you kind of agree with me? In fact, these three right here earlier, they said, Are you all ready? And I said, well, I would feel like I was ready. This is before the service. Are you ready? I said I would feel like I was ready if I was doing a verse by verse Bible study because that's what I do and I know how to do that. And that seems right for a church meeting. And I said, So it doesn't really feel right to talk all this science and yet God is a God of science. God created all this kind of stuff, didn't he? But don't you in the end come around and say really all of the things about our world should be Christian things because we are given dominion over the world. And so it's all biblical in a sense as we look at economic policy and energy policy and education policy and all these kind of things, none of it is separated from the Christian faith. It's all part of it and it all becomes biblical. So there you have it. I hope you didn't feel like, oh, that was nothing but a science lesson. I hope you feel though, that was a biblical insight into the world in which we live and the body which I live in. There we have it. We'll pray, heavenly Father, thank you again for our bodies. Indeed the Psalmist said, and how true it was, I will praise thee, for I am fearfully and wonderfully made. Marvelous are they works, and that my soul knoweth right well. And indeed tonight I pray that our soul knows even better that we are fearfully and wonderfully made and including the world around us. And it is really a truth that can make us free. And in this we rejoice. Dear Heavenly Father, pray that you would give us a good night's sleep, that we would have some good energy tomorrow. And indeed that the things we heard tonight might set us on a journey of learning electricity and how it works in us and around us that would enable us to be more energetic, to be more productive, to be more powerful in all the things that we do for you. We ask it in Jesus name. Amen. God bless you, those of you online and those of you here. We start again in the morning at 09:00 a.m.. And we'll have the coffee going and some water and some snacks and all that and we'll take a little break and then we will be done. Thank you very much. You're.