The Primer Fields Part 2

Voice over

1:15

In The Primer Fields Part 1 it was shown how two magnetic bowls of opposite magnetic polarity would

form a variety of plasma structures within a vacuum chamber. The shape and color of these plasma

structures were clearly determined by the following factors.

The shape of the magnetic bowls.

The spacing and orientation of the magnetic bowls.

The type of gas that was used to purge the vacuum chamber. This included ordinary air, argon,

hydrogen, and helium.

The vacuum level in the vacuum chamber.

The electrical voltage used, with 70,000 volts being the typical voltage utilized.

The polarity of the direct current electricity used in the experiment.

The positioning of the electrodes within the vacuum chamber.

All of these factors influence the shape of the plasma formations within the vacuum chamber.

2:00 In The Primer Fields Part 1 the plasma formation were often shown starting out with long arcs that

gradually transitioned into a stable formation. This start up transition was due to a change in the

vacuum level alone. Once the vacuum level is stabilized at the correct level for the plasma formation

desired, the light emitted by glowing plasma can be turned off and on instantly.

So the electricity is not responsible for the fields that form the plasma formations. The electrical

polarity determines how the plasma conforms to the fields, but the fields are not at all formed by the

electricity.

A reversal of the electrical current that causes the plasma to glow will also cause an entirely different

pattern to be revealed in the vacuum chamber, but this is due to a simple polarization change in the

plasma which reveals a different aspect of the same field structure. The electrical polarity change is not

causing the fields to change; it is just changing how the plasma responds to the fields.

Here we see the instantaneous effects of this electrical polarity reversal as the DC electrical supply is

switched between polarity states just as you would flip a light switch on and off.

When I ran tests without magnetic emitters within the vacuum chamber I saw no evidence whatsoever

of the electricity causing any magnetic fields to form. It order to get the plasma to organize in any

meaningful way a magnetic source had to be added to the experiment. So I see no evidence to support

the idea that external electricity in space would cause these magnetic fields to form. Therefore these

magnetic fields must naturally form these bowl shaped structures just as the air can form a tornado

under the correct conditions. I cannot be sure of this formation process, but logic would dictate that

these fields are there and that they form naturally under the correct conditions.

3:37 In The Primer Fields Part 1 it was shown how these opposing bowl shaped magnetic fields emitters

control the formations of both steel and magnetic balls around the magnetic bowls.

3:58 It was also shown how 5 mm steel balls formed geometric patterns in the nucleus area between

the two magnetic bowls. We also saw that these steel balls repelled each other because of the magnetic

field that was induced into each of them in the nucleus area.

4:30 The magnetic bowls also induce magnetic fields into ordinary steel balls both inside the bowls and

around the bowls. The induced magnetic fields then cause the steel balls to all repel each other and at

the same time the fields of the magnetic bowls confine the steel balls into organized rings and patterns.

It is very clear that these magnetic bowl shaped fields impart order into the matter around them

whether in the vacuum chamber or outside the vacuum chamber.

5:30 It was also shown how one of these magnetic bowls would induce a magnetic field into an ordinary

steel ball which then enabled the steel ball to be repelled away from the bottom of the bowl.

6:04 We saw how the magnetic bowls developed colorful glassy patterns as they were used in the

vacuum chamber experiments.

6:41 Using just five sets of magnetic bowls we witnessed many amazing things in the experiments

shown.

7:10 Then by utilizing what we learned in the laboratory experiments we were then able to come to

understand the structures we find in space better than ever before.

7:32 We discovered that we could now show how galaxies, stars, nebula, and most all other structures

that we find in space could be explained without requiring black holes, dark matter, or dark energy.

8:30 That brings us to Part 2 in the Primer Field series. To begin with we are going to explore the

magnetic sub-structures that are found within these magnetic bowls.

The reason for the glowing rings that we see inside the magnetic bowls in the vacuum chamber will be

explained in this section of the Primer Fields. Understanding the function of these rings is critical to

understanding how fusion works in the stars.

9:00 It will also be shown how the bubbles inside the magnetic bowls are caused by magnetic

confinement and how these magnetic bubbles are related to the ejection jets that are emitted from the

top of these bubbles.

9:37 This animation shows a magnetic bowl. In the bottom of the bowl we find three magnetic sub-

structures.

9:50 Now we will slice the bowl in order to get a better view of these magnetic sub-structures.

10:00 I have named these sub-structures the confinement dome, the flip ring, and the choke ring.

10:23 A regular compass is much too large to properly map the fields within the magnetic bowls, so a

much smaller magnetic compass was fabricated to map the fields in and around the magnetic bowls.

10:48 The red and blue arrows shown here indicate magnetic orientation and the direction of the flow

of matter in and around the magnetic bowl. The red arrows indicate magnetic north and the blue arrows

indicate magnetic south.

11:07 Now a magnetic sphere is used to reveal the shape of the confinement dome.

11:24 Here we see a string of magnets being used to show the magnetic field lines inside and around the

bowl.

11:38 Here we see an example of the ejection forces that exist within the magnetic bowls.

11:48 Then we see that this ejection force can be extremely strong.

12:12 So just as we see in the plasma experiments in the vacuum chamber, we see that these ejection

jets start at the top of the confinement dome and shoot out of the bowl in line with the axis of the bowl.

12:55 Then when we take this knowledge and apply it to the Vela pulsar we find some incredible

validation of this theory. Notice how perfectly the bowl shape, flip ring, and ejection jets all match with

the structure of the Vela Pulsar.

13:30 Once more we see a magnetic sphere being used to reveal the shape of the confinement dome in

the bottom of the magnetic bowl. The only way for the magnetic sphere to get under the confinement

dome is for it to enter at the flip ring at the base of the confinement dome. Once under the confinement

dome the magnetic sphere is trapped under the confinement dome. If the magnetic sphere is forced

above the confinement dome we see that it is ejected up and then once again held above the

confinement dome by the magnetic forces within the bowl.

14:10 Now we have an animation showing how magnetic matter would react inside of the magnetic

bowl. For now we will be focusing on the function of the flip ring. The red and blue balls are labeled to

indicate north and south magnetic polarity. Red for magnetic north and blue for magnetic south.

So as you can see all the particles within the magnetic bowl are drawn to the flip ring where they then

enter the area under the confinement dome.

Notice how at the flip ring the balls flip magnetic orientation. That is why I call it the flip ring, because it

flips the magnetic orientation of the matter passing through it.

15:20 This animation shows how particles of matter flow inside these magnetic bowl. The particles of

matter entering the bowl are each induced with a magnetic field of their own. Then these particles of

matter are drawn down to the flip ring where they violently flip magnetic orientation and then become

trapped under the confinement dome and above the choke ring.

This flow of matter continues until the supply of available matter is exhausted. These bowl shaped

magnetic fields act as matter compressors. They will compress available matter until there is nothing

left. This is why there is a vacuum in space. Most all of the available matter has been compressed so that

all that remains in space is a vacuum.

16:20 Now we will take a look at the function of the choke ring.

Shown here are steel balls that are held in place at the choke ring. The balls are free to rotate around

the choke ring, but they resist exited out through the bottom of the bowl or going back up into the bowl.

The flow of matter is choked at the choke ring which is why I call it the choke ring.

The choke ring in the bottom of the blue bowl or the south magnetic bowl functions exactly the same

except the magnetic polarity of the choked matter is reversed.

17:07 So here in the bottom of this bowl in the vacuum chamber the glowing ring is in the flip ring.

17:40 In this view we see how the flow of plasma is choked down as it goes through the hole in the

bottom of the bowl. This is the choke ring at work confining the plasma magnetically into a narrow

stream.

18:47 Now we are going to take a look at another magnetic sub-structure that exists below the bottom

of the magnetic bowl. I refer to this area as the flip point. The flip point is in line with the axis of the

bowl.

19:12 Here we see the micro compass being used to show how the flip point flips the magnetic

orientation of matter at the flip point. Past the flip point matter is held away from the bottom of the

bowl, but inside the flip point matter is drawn into the bottom of the bowl.

19:35 In this demonstration, notice that the steel ball is pulled towards the flip point and then held at

the flip point by the interaction of the magnetic fields of the bowl and the induced magnetic field of the

steel ball.

20:27 This flip point repulsion is the reason we see the ejection of matter from the bottom of the Vela

Pulsar.

20:57. In January of 2013, the Chandra X-ray observatory released this series of images showing the flow

of matter around and into the Vela Pulsar.

As you can clearly see the matter is ejected out of the top and out of the bottom of the Vela pulsar.

Most of the matter coming out the bottom of the Vela pulsar then moves up towards the top of the Vela

pulsar’s magnetic bowl, where it flows back down to the flip ring in the Vela Pulsar. You can even see

the evidence of the confinement dome above the flip ring in the bottom of the Vela Pulsar’s magnetic

bowl.

Despite what we have been told, the pulsation of the Vela pulsar is NOT due to a rapidly rotating

neutron. That is just what was theorized before the discovery of bowl shaped magnetic fields.

In a bowl shaped magnetic field the confinement dome is constantly trying to confine all the matter

beneath it, but when the energy of this confined matter becomes too great some of this confined

energy escapes. Located at the top of the confinement dome is its weakest point and this is where this

confined energy escapes. In other words this point in the confinement dome acts as a relief valve. If you

google relief valve chatter you will see that relief valves can come to a point where they will release

pressure in very rapid pulses.

Since the confinement dome is acting as a relief valve it can come to a state where it is rapidly pulsing as

it releases a burst of energy and then closes again cutting of the flow of energy being released. Since the

confinement dome is operating as an electromagnetic relief valve, it can release these bursts of energy

at very high frequencies. So pulses of energy can be rapidly released and then stopped immediately by

the action of the confinement dome. This is why some pulsars exhibit these rapid pulses of energy that

can suddenly stop and then restart hours or days later.

If we look at how these bowl shaped magnetic fields function in the vacuum chamber we see that they

also emit energy in rapid pulses.

24:33 HH 30 is another example of bowl shaped magnetic fields with ejection jets in line with the axis of

HH 30.

24:57 In the ejection jet of HH 111 we can see very definite pulses in the matter ejected. By comparing

the jet of HH 111 with a jet that is externally electrical driven in the vacuum chamber we see that they

have dramatically different structures.

The externally electrically driven plasma jet shown in the lower image is very steady and it fades

gradually, whereas the jet of HH 111 has dramatic pulsed formations and a sudden cut off at the tip.

The structure we see in the jet of HH 111 does not fit with what would be found in an externally

electrically driven plasma jet. So I must conclude that the jet of HH 111 is not externally electrically

driven.

25:44 The same logic would apply to the jet of M87. This jet is not a continuous structure that would be

expected if this was truly externally electrically driven as the jet on the right is.

26:02 But we do see the common overall shape of the jets due to the shared magnetic bowl structure

responsible for the jets in both M87 and the jets in the vacuum chamber.

26:09 As we examine the Crab Pulsar we see that it also is easily explained with a bowl shaped magnetic

field.

26:20 Here we can see the knot like pulses that are emitted by the magnetic bowls in the vacuum

chamber. Also notice how the plasma is choked down by the choke ring as it flows up into the upper

bowl.

26:40 You can find more information on pulsars on my Facebook page.

This includes very interesting study on pulsars that was released in January 2013. This study brings

further validation to the theories of pulsar behavior presented in the Primer Fields.

27:55 Now we are going to take a look at supernova remnants. Supernova remnants are what are left

after a star explodes or goes supernova. Astrophysicists believe that all of these bubble type supernova

remnants once had a star in the middle of them. Then they believe that the bubble we see is a shell of

gas moving away from where the exploding star once was.

But I am now going to show you that this concept is incorrect.

28:40 So we need another explanation for what formed these bubble type supernova remnants.

28:54 Occam’s razor is accepted in science as a way to determine which solution to a problem is most

likely the correct one. The principle of Occam’s razor is to provide the simplest solution possible.

Therefore in line with Occam’s razor, I am going to show you a very simple explanation of the forces

behind bubble type supernova remnants.

29:20 The solution you are about to see would apply to all bubble type supernova remnants as well as

many other bubbles that are observed in space.

29:40 As you may have expected the solution is found in bowl shaped magnetic fields. So again we see

the confinement dome, the flip ring, and the choke ring.

30:25 Particles of matter are drawn into the magnetic bowl and down to the flip ring. The particles of

matter flip magnetic orientation at the flip ring and then become trapped under the confinement dome.

As the matter continues to accumulate under the confinement dome, it causes the confinement dome

to swell in size. In other words the bubble is continually growing. That is why when they measure these

bubble type supernova remnants they are found to be expanding.

31:10 Notice the lip at the bottom of Tycho’s SNR. This is where the flip ring is located.

31:44 Then we have SNR SN 1006. Notice the appearance of the top of this bubble.

32:35 Notice the axial formation up through the middle of this supernova remnant.

34:06 there are times when the internal pressure of the bubble is too great and the magnetic bubble

will fail at its weakest point. Then the choke ring may also allow some matter to escape out of the

bottom of the bowl.

This is the exactly what we find in the Jelly Fish Nebula.

35:20 Scientists have studied supernova remnant with a wide variety of instruments. When you carefully

check all this data you will find that it all conforms to the theories of supernova remnant formation

presented in the Primer Fields.

One of the most thoroughly studied supernova remnants is SN 1006.

36:00. This image of SN1006 shows what is seen in the wavelengths of light visible to the human eye.

36:13 Now added to Hubble image we have what is seen in other wavelengths by other telescopes.

36:23 Where the magnetic field is the strongest is at the choke ring and this is also where matter is

compressed to the greatest density. This is why the choke ring area of SN 1006 is the only part of SN

1006 visible to the human eye. This is where matter has the highest density and becomes visible.

36:45 Notice that other images of SN 1006 in other wavelengths also conform to the structure that

would be expected within a bubble formed by a bowl shaped magnetic field.

37:02 Here we see the flow of matter going down to the flip ring and the ejection of matter out of the

top and out of the bottom of SN 1006. Notice that this matches the flows that we saw earlier in the Vela

Pulsar.

37:34. Then we have this very interesting supernova remnant. I will just let the images do the talking.

39:00 Then as we observe The Ring Nebula we also see that it too is actually formed by a bowl shaped

magnetic field.

40:10 So based on what we now know about how bubbles are truly formed in space, the massive bubble

structures that have been discovered in our own Milky Way galaxy make complete sense.

40:20 added Then we have this new study that I just received this morning which also confirms the

theories presented in the Primer Fields. The magnetic nature of our universe in undeniable.

40:30 The formation of Eta Carina is also no longer the mystery that it once was.

40:54 The Eskimo Nebula is also easy to understand once you realize that it too is formed by bowl

shaped magnetic fields.

41:10 Notice the bubbles inside the Nebula referred to as M2-9

41:55 So now that you know the patterns to look for you will see that there are many confirmations of

the Primer Field theories found throughout the universe.

42:10 In this image of Semeis 147 we see the flip ring……..the choke ring…….and the matter ejected out

the top of Semeis 147 at less than escape velocity and therefore the ejected matter is drawn back down

to the flip ring of Semeis 147.

42:40. In this image of the Rosette and Cone Nebula we can find three magnetic bowls with bubbles in

the bottom of them.

42:50 There is one bowl to the right,………….. one faint bowl in the middle, …………….and of course the

large bowl with a bubble in the bottom that we see here.

43:20 The Bubble Nebula is clearly in the bottom of a bowl.

43:30. Then active galaxy NGC 4438 is shown here with the bubble that it contains.

43:40 By now you don’t even need me to show you the bowl shaped magnetic fields that form the

infamous hourglass nebula. You can even see the confinement dome down inside the Hourglass Nebula.

44:10 So let’s review the basic structure inside these bowl shaped magnetic fields.

44:50 The red bowl represents north magnetic orientation and the blue bowl represents south magnetic

orientation. The shape of all the magnetic sub-structures within the red and blue bowls is identical

except for they are of opposite magnetic orientation.

44:55. In stars the two bowls would be at the poles of the star and the flip point would be the focal point

of nucleus of the star.

45:05 In the Primer Fields Part 5 we will look at how these fields function in the Sun including why the

Sun flips magnetic polarity about every eleven years and the true reason behind the solar cycle.

45:38 Notice that in the vacuum chamber experiments you can see that there is a brighter inner

magnetic bubble in the middle of the outer magnetic bubble. In other words there is a bubble within a

bubble.

45:54 In NGC 3918 we also see a bubble within a bubble.

46:05 Then the Catseye Nebula also has a bubble inside of a bubble formation that cannot be explained

by the currently accepted theories.

46:15 But when we apply the Primer Fields approach you will see that these bubble in a bubble

structures are very easy to explain.

47:44. So as you can clearly see all of these bubble in a bubble formation are not that difficult to explain

at all when you really know the truth.

49:05 The are also rings that are observed in space and here you see how these rings can be formed

between two bowl shaped magnetic fields.

49:35 Then we can also see how the Red Square Nebula could be formed between two bowl shaped

magnetic fields.

49:57 Now we are going to take a look at how these bowl shaped magnetic fields are responsible for

what has been observed in and around Saturn.

50:38 Saturn rings are so pronounced because the rotational axis and the magnetic axis of Saturn are

aligned with each other. Saturn is the only planet in our solar system with this exact alignment and that

is why rings are not as defined around other planets as they are around Saturn. The rings around Saturn

are held in place by the bowl shaped magnetic fields just as the disc of plasma is in the vacuum chamber

experiments.

51:18 The spokes that appear in the rings of Saturn have long been a mystery. But when you apply what

we learned in the vacuum chamber experiments the cause of these spokes becomes very clear. Notice

that the spokes are at a tangent to the surface of Saturn.

52:00. Now notice how the bursts of plasma emissions from the center of the vacuum chamber are also

at a tangent to the rapidly rotating core in the vacuum chamber. When we overlay the vacuum chamber

video with the images of Saturn and its rings the solution to the source of the spokes in Saturn’s rings

becomes obvious.

The spokes in the rings of Saturn are no longer a mystery.

53:10. Then we can see that the Primer Field theories also clearly show the true reason behind the polar

auroras on Saturn.

53:30. Shown here is the basic magnetic field structure that is around Saturn.

54:17 Then this image of Saturn’s north pole captured the interest of the whole world. Not really that

difficult to explain once you understand the theories and concepts presented in the Primer Fields. If you

look closely you will even see a magnetic bubble in the middle of this image.

54:46. Then of course we have the intriguing hexagonal patterns seen in the pole of Saturn.

55:12 Around the axis of bowl shaped magnetic fields we find that these fields will cause matter to form

these regular polygonal shapes.

55:35 In the ring of steel balls around the nucleus in this image we can also see this polygonal effect.

55:00 So as you can see most all of the mysteries of Saturn are very easy to explain when you apply the

theories that you have learned in the Primer Fields.

56:23 Now let’s take a look at Jupiter.

56:30 Here we see that Jupiter’s magnetic axis and rotational axis are not quite aligned and that is why

the rings of Jupiter are not as pronounced as the rings around Saturn.

56:46 Notice the appearance of the polar areas of Jupiter.

56:55. This image from NASA reveals the ring formations around Jupiter.

57:08. These views of the poles of Jupiter reveal very organized patterns about its axis.

57:45. Next to the red asterisk notice the dark spots on Jupiter as they rotate by.

58:00. Now notice these same type of flows on the bowls in the vacuum chamber. You can see the

fingers of plasma on the lower bowl in this image.

58:19. Then with the larger bowls we also see this same type of pattern next to the glowing sphere.

58:30 So by applying the theories presented in the Primer Fields we can see that we now have a very

logical explanation for the patterns we observe on the surface of Jupiter.

58:45 That brings us to the end of The Primer Fields Part 2. In this installment we learned about the

magnetic sub-structures that are found within the bowl shaped magnetic fields.

59:10 You learned about how ejection jets truly function.

59:45 You were shown clear proof of a bowl shaped magnetic field at work in the Vela pulsar.

60:09 The forces at work in bubble type supernova remnants were revealed.

61:02. We saw that bubble in bubble nebula are easily explained using the theories presented in the

Primer Fields.

62:00 Then we ended with a brief discussion of the forces at work in and around Saturn and Jupiter.

62:15. In The Primer Fields Part 3 we will be exploring the wave particle nature of matter. This will

include an in depth examination of light and the reason it exhibits the dual nature we find in the

infamous double slit experiment.