Five things you probably didn’t know about The Moon

Five things you probably didn’t know about The Moon

Five things you probably didn’t know about the Moon

Here are five mind-blowing facts you may not have realised about our closest neighbour

1. The Moon is flashing at us and we don’t know why

For many years now we have seen flashes on the Moon. They last between a few minutes to hours and we can’t predict them.

They have been spotted by amateur astronomers as well. Interestingly they do not seem to leave traces behind on the surface of the Moon. 

Some speculate that these flashes could be associated with seismic activity but astronomers do not really know what they are.

Explanation: these flashes are created because the Moon also displays Black Hole Principle behaviour in that sometimes it creates light through the annihilation process of matter and antimatter. 

The Black Hole Principle

The Black Hole Principle

2. A very dense anomaly has been detected under the South Pole of the moon.

As our ability to analyse bodies in space become more sophisticated, we have been able to scan the moon more deeply and found a few surprises. This has led to the finding of a very dense anomaly at the South Pole of the Moon. It could be some kind of very heavy metal and it’s 300 km beneath the surface. Our sense of the consistency of the moon has had to change. 

Explanation: As discussed in previous articles on this site, it seems that many elements are generated by The Black Hole Principle, possibly all the elements. So this could be the reason why there is a dense anomaly 300 km beneath the surface of the Moon. It is being created by the centre of the Moon. 

Five things you probably didn't know about the moon

Image: © NASA/Goddard Space Flight Center/University of Arizona

3. The Moon contains water ice and could be producing it.

We used to think that the Moon was dry but now we know there is a lot of water there. It is especially around the poles and in craters as water ice.

Explanation: Water production is one of the hallmarks of The Black Hole Principle. We would expect water to be plentiful at the poles as The Black Hole Principle works in a bipolar jet fashion as seen at the galaxy level.

Moon craters then become a result of an upwelling force not impact. As the flow reaches the surface from the Moon’s core, water jets are formed, hence the ice found in the craters. So far there have been signs that mainstream scientists are realising that moons can have upwelling effects and explosions due to the crater dynamics but this is far from a generalised idea. 

bipolar jet black hole

4. There could be active volcanoes on the moon.

Astronomers have detected signs of volcanic activity on the far side of the moon. We think there was some in the past but it could still be going on. We see volcanic activity on other moons in the solar system but this was also unexpected. 

Explanation: Volcanic activity is also the periodic release of energy from beyond the speed of light from the inner black hole dynamo of each planet of each moon. 

5. The moon is brighter than the sun in the gamma-ray spectrum.

We now have different telescopes in use that look at different parts of the electromagnetic spectrum. This has revealed to us that the Moon is actually brighter than the sun in the gamma-ray spectrum.

Explanation: Of course, the mainstream scientists will say that the gamma rays are only just hitting the moon from outside, but according to The Black Hole Principle, it is perfectly possible for the Moon to be creating gamma rays itself. 

I hope you have enjoyed our exploration of the Moon. Are there any facts that we have missed out? Which new revelations have interested you the most? Please leave a comment below this article. 

 

The Milky Way suddenly got brighter and nobody knows why.

The Milky Way suddenly got brighter and nobody knows why.

A Bright Mystery

In August 2019, Scientists spotted that the centre of our own galaxy, The Milky Way became 75 times brighter in just a few hours. It was in the Near-infrared spectrum so wasn’t visible to the ‘naked eye’. This was an increase far greater and faster than ever seen before.

Some Astronomers were at a loss as to how this occurred. Some people speculated that the flare-up was caused by a star falling into the black hole at the centre. The black hole is called Sagittarius A.

Of course, according to The Black Hole Principle, sudden flare-ups in brightness are to be expected. This is because, as light reaches us from higher dimensions, it splits into matter and antimatter. But then these can recombine to form light again. This can take various forms including gamma-ray bursts.

Our Breathing Galaxy

The timing of these cycles varies, from a few seconds to several months or even more. This is why we see these sudden flare-ups. They represent the ‘breathing’ process of The Black Hole Principle.

We even have some evidence that the gases near the centre of the Milky Way called High-velocity clouds ‘breathe’ in and out.

A quote from a Scientific American article discussing clouds of gas in the Milky Way that appear to be breathing in and out.

A problem solved

When you understand the underlying pattern, the sudden brightness of the black hole at the centre of the Milky Way can be explained. As to how it becomes so bright – well we are talking about the light from infinity coming into our world!

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Where did the Water of the Earth come from?

Where did the Water of the Earth come from?

Where did the Water of the Earth come from?

The Earth is almost covered with water, but it may surprise you that scientists are still debating as to how all this water got here in the first place. The general consensus is that water arrived originally on this planet via an impact collision with a comet or asteroid. Analysis of comets and asteroids in space have shown that the type of water they contain is not always an exact match. 

The real answer is that we don’t know for sure the answer to this pretty basic question. 

Finding the Solution

According to the Black Hole Principle, each and every celestial body from stars to planets to comets has the ability to create its own water from its centre. In this way, they follow the pattern laid out for everything from supermassive black holes to thunderstorms. 

The Ocean beneath us

The Earth is no different. In 2013, I gave a keynote lecture at the Institute of Noetic Sciences in which I predicted that the water of the Earth is actually being produced by its interior. In just a few months, scientists announced to the world that an ‘ocean’ had been found deep below the Earth’s surface.

It is water bound up in rocks and crystals but nevertheless represents more water than exists on the Earth’s surface. 

The Simple Pattern

Once you know The Black Hole Principle, you can easily make such predictions about the universe because you understand the simple underlying pattern throughout reality. 

Therefore we have solved the questions of where Earth’s water has come from – it is being produced by the Earth itself. 

 

Why is the Galaxy blowing bubbles?

Why is the Galaxy blowing bubbles?

Gamma-ray bubbles have been detected around the Milky Way for a few years. Why are they there?

An unexpected discovery

In 2010, the Fermi telescope discovered two huge bubbles either side of the Milky Way Galaxy. This was in the Gamma-Ray aspect of the electromagnetic spectrum. To this day, mainstream scientists don’t understand what these structures are caused by.

Credit: NASA

In falling debris?

Early ideas suggested that this could have been an ancient explosion. But these gas cloud bubbles are still moving so some people think they represent material which fell into the black hole at the centre of the galaxy before being accelerated away to almost the speed of light.

Further resolution of the image provides clues. We can now see bipolar jets, one of the hallmarks of The Black Hole Principle.

Credit: NASA

 

The Solution

The gamma-ray jets are being produced by the central black hole at the speed of light and particles are also being accelerated at near-light speeds.

Reports that similar bubbles are being found around our nearest neighbour, Andromeda. So this type of pattern is possibly normal. This is to be expected in The Black Hole Principle.

The mystery of the Fermi bubbles is now solved: it is The Black Hole Principle in action. 

Betelgeuse is getting brighter!

Betelgeuse is getting brighter!

As predicted by The Black Hole Principle, Betelgeuse is now getting brighter. We shall explore why this was predicted according to the theory.

Is Betelgeuse about to ‘go supernova?

As discussed in a previous episode of Punk Science TV, the world has been waiting with bated breath ever since it was observed that the star Betelgeuse has been dimming more than usual. The star actually has some variability anyway but recent months saw an unusually severe dip in brightness. 

This got a lot of people excited that the star might be about to explode and ‘go supernova’. 

Reality and Fantasy

Sadly for mainstream astrophysicists, their interpretations of how the universe works compared to how the universe actually works are very different. 

As seen in my previous blog, The Supernova that refused to die, even stars that were supposed to have exploded long ago, can reappear again, much to the amazement of mainstream scientists. 

The only theory to have predicted actual reality

That’s because they are not explosions. The Black Hole Principle is possibly the only theory of the universe to actually successfully predict the way the universe actually behaves.

We will talk about what happens at the edge of a black hole but every Black Hole Principle object from stars to volcanoes act in the same way. Due to the breathing motion at the edge of the black hole, we expect there to be fluctuations in light and radiation that is emitted. 

The Black Hole Principle

The Black Hole Principle

 

The pattern of these emissions can seem random to us. Sometimes the bursts are regular, sometimes they are far apart and sometimes, so much radiation is given off that we are convinced that the star must have exploded. 

In the case of Betelgeuse, it was thought to be the first time that we would witness a star before it exploded. But as I predicted, Betelgeuse has started to brighten again and has not exploded. 

The Black Hole Principle predicts the universe yet again!

Once you understand The Black Hole Principle, who know how the universe really behaves and not just projections from outmoded ideas. 

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