In Einstein’s master work of general relativity, he wrote the equation describing the evolution of the universe over time.

The solution to this equation shows that the universe is unstable, not a huge sphere with constant volume with stars sliding around, as was believed at the time.

At the beginning of the 20th century, people lived with the well-established idea of a static universe where the motion of stars never varies.

Predominant thought in Europe prevented people from accepting a phenomenon that so utterly contradicted the idea of an unchanging sky.

So Aristotle was almost right in thinking that the sky was unchanging – on the scale of a human life at least.

To remain in accordance with the idea of a static universe, Einstein introduced a cosmological constant into his equations, which froze the state of the universe.

His intuition led him astray: in 1929, when Hubble demonstrated that the universe is expanding, Einstein admitted that he had made “his biggest mistake.”.

Einstein contributed greatly to the field in 1905, by interpreting the photoelectric effect as being a collision between electrons and photons – that is, infinitesimal particles carrying pure energy.

But despite this vital contribution, he remained stubborn in rejecting the key lesson of quantum mechanics – that the world of particles is not bound by the strict determinism of classical physics.

We only know how to predict the probability of an occurrence among a range of possibilities.

Plato taught that thought should remain ideal, free from the contingencies of reality – a noble idea, but one that does not follow the precepts of science.

Einstein himself was convinced that pure thought was capable of fully capturing reality, but quantum randomness contradicts this hypothesis.

This principle imposes collective determinism on groups of particles – an electron is free by itself, as we do not know how to calculate its trajectory when leaving a hole, but a million electrons draw a diffraction figure, showing dark and light fringes that we do know how to calculate.

It is undeniable that a reality exists that transcends our understanding – we cannot know everything about the world of the infinitely small.

This is what leads to conceptualizing a theory, and Einstein, with his thought experiments, gives a famous example of it.

But these intuitions, or “flowers” of the human spirit, are not the same for everybody – Einstein’s brain produced “E=mc2”, whereas Proust’s brain came up with an admirable metaphor.

For him, the human brain should be capable of knowing what the universe is.

Perhaps a further evolved human brain will be capable of knowing what the universe is.

By pure thought Einstein deduced these universal truths while working as a lowly clerk in a patent office and without the data from super colliders.

To give you a taste (in layman’s terms) please read on… when super massive black holes eat gasses and matter from stars and planets; said gasses and matter are converted to black hole matter which is hyper dense, and super heavy (1 teaspoon of a neutron star material is estimated to weigh 10 million tons)

From recent satellite data we now know black holes spin at upto 81% the speed of light

And when black holes eat too much, the recently converted matter is sloughed off the super massive black holes and are ejected from the poles of the black hole and into space at a high esacpe velocity

The ejected black hole matter maintains all of its black hole properties and forms globes of black hole material

When several of these small globes of black hole material encounters gasses and matter from asteroids and comets, they then start to attract these gasses and matter to themselves (concretion) thus seeding the universe with new suns and planets

New cutting edge data suggests these small globes of black hole matter maintain a quantum interaction that lead to new solar systems being formed

The quantum interaction is the same seen in quantum computers

This quantum interaction leads to organized solar systems that has occured billions of times

Depending on the size of the globe of black hole material will lead to either a sun, or planet being made

The larger globes suck in most of the gasses and by its hyper rotation and gravity and radiation being produced then by insane frictional forces, ignites the condensing gasses to start a sun’s life by the process of fusion

He certainly isn’t claiming that he is better than Einstein, just that Einstein wasn’t perfect

You, on the other hand, seem to be nominating yourself as a great physicist, yet don’t even know how to make a paragraph