Gathering 2005 -- Sun Valley, Part 35

2010-1-6 11:22:00

  

The Molecular Relationship

JJ:  We're going to talk today about the Molecular Relationship. This is a principle that the group is probably more excited about that any other because of the potential that it has. Most of you are familiar with it. There is a handful that is not. So we're going to kind of recap the whole principle and how it works and then go into maybe a few details and aspects we haven't covered before, hopefully. Does anybody know what a molecule is?

Audience:  "Well, it's made up of more than one atom."

  

JJ:  Made up of more than one atom. Is a molecule just a couple of atoms getting together? What is it? What produces a molecule? Rob? We're talking about. physical matter.

Rob:  "A bunch of atoms. It could either be the same atoms or different atoms and they have a bond that makes them something more than what they are."

  

JJ:  Okay. Assaf?

Assaf:  "They share electrons together. The different atoms in the molecule share together electrons in order to balance the missing electrons that each one has. An atom has extra electrons and another atom has missing electrons so they share them together."

  

JJ:  Okay, and they share for what reason did you say?

Assaf:  "To become a new type of matter."

  

JJ:  Yeah, that's the result, but you said a minute ago they share for what reason? What's the impulse behind it? You just said the word.

Audience:  "Balance."

  

JJ:  Balance, right. Who is of a scientific bent here? Anybody? So they share electrons and by several atoms getting together it balances off each individual atom. Isn't that interesting? They share it for balance. In other words, one atom has too many electrons -- it has an extra electron in its outer electron shell -- another atom is missing an electron, and they share and they balance each other's energies.

Do you think that the average person out there feels just a little bit out of balance? What do you think? (chuckling) Almost everybody you meet, once you get to know them a little bit, is a little bit out of balance, aren't they? It's kind of funny. They may look really balanced when you see them, like, oh, let's pick on old James over here. He looks really balanced. He's about the most balanced-looking guy. (laughter) You never see him raise his voice or get angry or... I've never even seen him get frustrated.

Audience:  (Inaudible protest & laughter.)

  

JJ:  From what I know of James, James is just the perfect guy. But let's get his spouse's view on this. Is he perfectly balanced at all times?

Audience:  "Yes, he is."

Audience:  Laughter.

  

JJ:  Oh! We found one! Boy, you're getting paid off tonight, huh? (laughter).

Audience:  "I see a new car in your future. (laughter)."

  

JJ:  A new house. (laughter) Well, we'll just eliminate James from the equation. He doesn't need any more balance. But everybody is a little bit out of balance. Once you get to know them, it's amazing the problems each person has. Each person has what I call the maximum amount of problems they can handle, except for one person out seven which is on his Sabbath life. I believe that one life out of seven is a Sabbath for the person and he has a fairly easy life. And if you look around, that's about the way it works out. About one person out of seven seems to have it pretty easy. The other six out of seven, if you talk to them, if they had one more thing to handle they would just break and probably be driven insane pretty much. (chuckles) But when you get to know the average person, they've got all they can handle, except for maybe Rob, right? You could handle more, right?

Rob:  "Uhhh, no." (laughter)

  

JJ:  Not even Rob could handle more. So we've got just about all that we can handle.

Audience:  "So is that like one out every seven years you get a Sabbath life?"

  

JJ:  No, seven lifetimes.

Audience:  (Inaudible) ... "plan my vacation."

  

JJ:  No, one out of seven lifetimes.

Audience:  "So how often do they occur? (inaudible)"

  

JJ:  Well, depends on how often you incarnate. Anyway, everything goes in cycles. Maybe one out of seven years you might have a little bit easier year than normal, too.

Audience:  "One out of seven days."

  

JJ:  Yeah, one out of seven days we make a little bit easier day for ourselves. We kind of plan it that way so we can get refreshed. A physical molecule is created, then, by two or more atoms getting together and sharing their electrical energies.

All the energies in the universe are reduced to two things. What are the two energies in the universe?

Audience:  "Positive and negative."

  

JJ:  Positive and negative. That's all there is. That's duality. Everything is created from duality. We have my computer over here. It's got really complicated programs processing millions of bits of information, but the whole intelligence of the computer is reduced to what?

Audience:  "Zero and one. Off and on."

  

JJ:  Right, two things. Positive and negative, zero and one. A binary system of zero/one produces everything that happens on that computer. A combination of two things -- zero and one, positive and negative -- makes a complicated computer work. Billions of zeros and ones in all kinds of different combinations make anything you want to happen be created on that computer.

Well, that's the way God created the universe -- zero and one, the same way a computer program is created. When you see these kids playing these video games with these complicated graphics, all that creation took place from two things being put together in all kinds of different combinations. So it's the same thing with the reality we're in. We're almost like a computer program in the fact that when you go smaller and smaller, all you find are wavelengths produced of zero and one -- top of the wavelength is positive, bottom of the wavelength is negative -- and from this wavelength is produced all creation in the manifested universe.

So let's start with the atom. There are many ingredients of creation below the atom. If we understood what was actually in the atom it would boggle the mind. And that's the last part of my next book I'm working on. It's going to explain that. It's going to give you some very interesting things about that. But for the sake of today's discussion, we're going to start with the atom. The atom is composed of what two energies? And what are they called?

Audience:  "Protons and electrons."

  

JJ:  Protons and electrons. Then there's a third particle that's neutral. It's neutral because it still has a positive and negative within it but it's fairly balanced. Now when we find a particle in science where it says it's neutral, it's not really neutral. When science says something is neutral it means it's very close to neutral. You have the positive and negative energies balancing each other out, but still there will be a slight imbalance, sometimes almost immeasurable. But there will still be a slight out-of-balance for that particle.

Now for the protons and electrons, they have a full charge of plus one and minus one, and so they are way out of balance, so they have to be together. They are drawn together magnetically with a very powerful force where the -1 meets the +1 and they completely cancel each other out, and this causes the electron to stay around its central nucleus. The basic element of creation is the hydrogen atom. It has one electron circulating around a nucleus. The most complicated in nature is the uranium atom, which has 93 protons in the middle and 93 electrons circling around. So you can imagine the balance there becoming more difficult. It's a very complicated atom. As a matter of fact, as we get to the heavy elements -- the latest creations and the most complex -- they are so complicated that they sometimes split apart. That's called the splitting of the atom, and that's what makes the atomic bomb.

As the atom reaches the end of its evolution-- it has seven electron layers, it fills up these various layers, and the last layer, the seventh, the element of radium is created. Now what's interesting about radium that's different from the other lower elements?

Audience:  "It glows."

  

JJ:  It glows in the dark.

We paint the dials of our watches with radium and they glow in the dark. It's filling up its seventh electron layer. Now, isn't it interesting that there are seven layers of electrons. What do you think that corresponds to?

Audience:  "Seven centers."

  

JJ:  Right, seven centers in the human being. Now, what do you think the electrons that circle around the atom correspond to in the human being? Most of the mass in the atom is concentrated in the center. There's only about 1/2000 of the mass circulating around. Almost all the mass is in the center. Now, with our bodies, where is most of the mass located? All the mass except just a very ephemeral mass?

Audience:  "In the physical."

JJ:  Right. Your physical body is like the center of the atom. That's where almost all of our mass is, but not all of our mass. Where's the rest of the mass?

Audience:  "Aura."

  

JJ:  Right. The rest of it is in our aura. The aura is like the electrons, and it's such a small amount of mass that we can't even see it with our normal vision. As a matter of fact, when the scientists are examining the atom, they're having a really hard time seeing the electrons. In other words, at one time they think it's a particle, another time they think it's a wave. They used to think it was a particle for sure; now it displays wave characteristics. They can't figure out what it is for sure. They just know it exists and it has a different charge.