Tag: simulation (page 1 of 2)

Jurassic World of Genetically Modified Simulacra

June 29, 2015 / / 0 Comments

Jay Dyer, GuestJurassic World is the sometime sequel to whatever the last Jurassic film was. InJurassic Park, a ill-conceived theme park based on genetic resurrecting of the dinosaur all-star team. Now, Hollywood shows it’s gone fully green in recycling the same plot for a new audience of zombieswith Frankensaurus Rex. While the JurassicPlot (that’s a joke) is only a sliver different from the first, this time around genetic modifica [...]

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This revolutionary discovery could help scientists see black holes for the first time

April 29, 2015 / / 0 Comments


supermassive black hole
Artist's concept of the black hole.
Excerpt from finance.yahoo.com
Of all the bizarre quirks of nature, supermassive black holes are some of the most mysterious because they're completely invisible.
But that could soon change.
Black holes are deep wells in the fabric of space-time that eternally trap anything that dares too close, and supermassive black holes have the deepest wells of all. These hollows are generated by extremely dense objects thousands to billions of times more massive than our sun.
Not even light can escape black holes, which means they're invisible to any of the instruments astrophysicists currently use. Although they don't emit light, black holes will, under the right conditions, emit large amounts of gravitational waves — ripples in spacetime that propagate through the universe like ripples across a pond's surface.
And although no one has ever detected a gravitational wave, there are a handful of instruments around the world waiting to catch one.

Game-changing gravitational waves



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black hole
This illustration shows two spiral galaxies - each with supermassive black holes at their center - as they are about to collide. 

Albert Einstein first predicted the existence of gravitational waves in 1916. According to his theory of general relativity, black holes will emit these waves when they accelerate to high speeds, which happens when two black holes encounter one another in the universe.  

As two galaxies collide, for example, the supermassive black holes at their centers will also collide. But first, they enter into a deadly cosmic dance where the smaller black hole spirals into the larger black hole, moving increasingly faster as it inches toward it's inevitable doom. As it accelerates, it emits gravitational waves.
Astrophysicists are out to observe these waves generated by two merging black holes with instruments like the Laser Interferometer Gravitational-Wave Observatory.
"The detection of gravitational waves would be a game changer for astronomers in the field," Clifford Will, a distinguished profess of physics at the University of Florida who studied under famed astrophysicist Kip Thorne told Business Insider. "We would be able to test aspects of general relativity that have not been tested."
Because these waves have never been detected, astrophysicists are still trying to figure out how to find them. To do this, they build computer simulations to predict what kinds of gravitational waves a black hole merger will produce. 

Learn by listening

In the simulation below, made by Steve Drasco at California Polytechnic State University (also known as Cal Poly), a black hole gets consumed by a supermassive black hole about 30,000 times as heavy.
You'll want to turn up the volume.
What you're seeing and hearing are two different things.
The black lines you're seeing are the orbits of the tiny black hole traced out as it falls into the supermassive black hole. What you're hearing are gravitational waves.
"The motion makes gravitational waves, and you are hearing the waves," Drasco wrote in a blog post describing his work.
Of course, there is no real sound in space, so if you somehow managed to encounter this rare cataclysmic event, you would not likely hear anything. However, what Drasco has done will help astrophysicists track down these illusive waves.

Just a little fine tuning 

Gravitational waves are similar to radio waves in that both have specific frequencies. On the radio, for example, the number corresponding to the station you're listening to represents the frequency at which that station transmits.


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gwaves
3D visualization of gravitational waves produced by 2 orbiting black holes. Right now, astrophysicists only have an idea of what frequencies two merging black holes transmit because they’re rare and hard to find. In fact, the first ever detection of an event of this kind was only announced this month. 

Therefore, astrophysicists are basically toying with their instruments like you sometimes toy with your radio to find the right station, except they don’t know what station will give them the signal they’re looking for.
What Drasco has done in his simulation is estimate the frequency at which an event like this would produce and then see how that frequency changes, so astrophysicists have a better idea of how to fine tune their instruments to search for these waves.
Detecting gravitational waves would revolutionize the field of astronomy because it would give observers an entirely new way to see the universe. Armed with this new tool, they will be able to test general relativity in ways never before made possible.

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Cleaning Up Old Satellites And Space Junk Could Soon Be Done With Giant Fishing Nets

March 28, 2015 / / 0 Comments

Excerpt from techtimes.com Spacecraft are all shiny and new when they leave Earth but being up in space can do a number on them, resulting into bits and pieces of junk flying around. The European Space Agency's Clean Space initiative is looking to l...

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Mayday! Mayday! Mars One a ‘suicide mission’, warn leading space scientists

February 21, 2015 / / 0 Comments




By Victoria Weldon

IT'S been described as science fiction made real - but now, just as the final selection process gets under way for the folk with the right stuff to make a manned mission to Mars, scientists have dashed the dreams of planet Earth by warning the journey will probably never happen and will end in disaster if it does.
Privately run space exploration programme Mars One wants to send four people to the red planet for the rest of their (probably not very long) lives and film it for reality TV in order to help finance the endeavour.

Thousands have set their sights on becoming the first settlers to land on the planet - and have now been whittled down to a short list of 100, including a Scottish PhD student - but with questionable technology, a lack of funding and an unrealistic timeframe, experts claim it is a "suicide mission".

Mars One believes it can achieve a manned mission in 2024 - sooner than NASA, the European Space Agency, the Russians or Chinese, and on a fraction of their budgets.

If the project does go ahead, the crew would have to make it through nine months of interplanetary travel without being killed by mishap, radiation - or each other.

And even then, a recent study suggested they will only last 68 days on Mars before dying - due to lack of food and water.

However, Anu Ojha OBE, director of the UK National Space Academy Programme, has warned the applicants not to get their hopes up as the mission is unlikely to ever leave the ground.

Ojha said: "Obviously this is something that has captured the public's imagination, and Mars One obviously has a great PR team, but space engineering obeys the laws of physics not PR."
Mars One is the brainchild of Dutch entrepreneur Bas Lansdorp who was inspired by the images of Mars sent back by the Sojourner rover in 1997, when he was a student.

Lansdorp, who will not make the journey himself, has an impressive team working on the project including former NASA employees Dr Norbert Kraft, who specialises in the physiological and psychological effects of space travel and space architect Kristian von Bengtson.

Physicist Arno Wielders, who previously worked for Dutch Space, is also on board, as well as a number of other advisers from around the world with backgrounds in space engineering, science and technology, marketing, design and television production.

The ultimate aim is to see a large, self-sustaining colony on Mars, but Ojha, who is also a director at the National Space Centre in Leicester, said there are three major stumbling blocks for the mission: technology, funding and human psychology.

"In terms of technology, it's pushing the absolute boundaries and there seems to be a lot of technological naivety on the part of the people running it", he said.

"There are some elements that seem reasonable, but overall it's concerning, and the timescales are also questionable."

While Mars One is planning the one way mission for 2024, NASA, with its long established expertise and technology, is looking to be able to send humans to Mars and bring them back again by the mid 2030s.

This is estimated to cost up to as much as £100 billion (£64.9bn) for the space agency, while Mars One believes it can do it for an optimistic $6 billion (£3.9bn) - and there are even questions over whether or not they will be able to achieve that much funding.
The private enterprise is hoping to raise money through a TV deal and additional funding from the exposure that will bring the project.

Last year it said it had teamed up with programme makers Endemol, but the Big Brother creators recently pulled out of the deal claiming they were "unable to reach agreement on the details of the contract".

Mars One did not respond to questioning by the Sunday Herald over its funding, but its website showed that as at January this year, it had raised just $759,816 from donations, merchandising, and a crowdfunding campaign.

It is unclear what other funding the project has.

Ojha said: "The business model has so many holes in it, it's shaky to say the least. And when you ask them how much money they have raised, they say it's still ongoing. The time scales and the business model - they're completely unrealistic."

Mars One plans to send several unmanned rockets to Mars ahead of the 2024 mission, with the first of these scheduled to take place in 2018.

These will include missions with robots to find a suitable location for a base and assemble it ahead of the humans' arrival.
The project claims it will use only existing technology for the mission, buying in materials from proven suppliers including Lockheed Martin or SpaceX.

The equipment involved includes several simulation outposts for training, a rocket launcher, a transit vehicle to take the crew to Mars, a Mars landing capsule, two rovers, a Mars suit and a communications system.

However, experts have warned that much of this equipment has not been fully tested. 

Physicist professor Todd Huffman is a big supporter of attempting a manned mission to Mars, but he also has serious concerns about Mars One, claiming it is "scientifically irresponsible".

He said: "The plan stretches the technology in many places.
"The launch vehicle they want to use has not actually ever launched yet, let alone make a trip to Mars.

"The living spaces have not been made nor has it been tested whether they can be robotically assembled and by what kind of robot.

"A suitable site would also need to be found for the living spaces and the details of how water extraction will take place have not been understood.

"If you assign a 90 per cent chance to success to each of those things, all of which are necessary for human survival, you end up with about a 50 per cent chance of failure, ending in the death of the colonists - and that would likely not make good television."
He added: "Unless we [wait for] quite a lot of technology and exploration to happen first, it is basically worse than a one-way ticket for the colonists - it is almost surely a suicide mission if carried out within this next decade."

Although most scientists believe the mission will not go ahead, some have also warned of the psychological impact on the people selected for the mission if it does.

Ojha said: "The thing that's really captured the public's imagination is this idea of it being a one way trip, but this brings another set of problems in terms of human psychology.

"The longest period a human has spent in space is 438 days - they're talking about sending people on a one way trip.
"Lots of the people I've seen interviewed, they're really excited about taking part, but have they really thought about what they're doing and what the implications are?

"I would tell them to go to Antarctica for six months in the middle of winter and that's about 1 per cent of what they'll be experiencing on Mars.

"Human psychology is far more fragile than we think."

However, while many scientists warn of the dangers and do not believe the mission will proceed, they have praised Mars One for sparking the public's interest in planetary science.

Dr John Bridges, of the Space Research Centre in Leicester, said: "It's a very interesting and innovative project, but the time scales are very challenging.

"I believe they're planning for 2024 and it's 2015 now. So for something as major as this, it's a very challenging timescale
"But it's fantastic that people are thinking about this, that industry is getting involved and raising awareness of planetary science."

Ojha added: "Mars One has been great in a way because it's once again drawn people's imagination to the idea of space engineering and exploration. 

"But the reality is that there are serious concerns about the project's space engineering, funding and medical implications."

Lansdorp has previously said that most people are "surprised to hear that the manned missions will be happening in ten years time, with a budget ten times less than Nasa".

He added: "But I think that if you really spend time studying Mars One, you cannot believe there is not a good chance we will make it.
"At the same time, it's a hugely ambitious plan, there's many things that can go wrong with such a big plan.

"But I believe we have a good plan and we can overcome the challenges."

However, he has also conceded that the current plans are an "optimum schedule", adding: "If one rocket doesn't launch, or a lander doesn't work on Mars before a human goes, any major malfunctions will result in a two year delay."

Mars One declined the Sunday Herald's request to interview someone from the project and failed to answer any of our questions.

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Striking Similarities Between Brain Cells and Our Universe

February 2, 2015 / / 0 Comments



The two pictures below illustrate the similarities. The top picture shows the neural network of a brain cell; the bottom picture shows the distribution of dark matter in the universe as simulated by Millennium Simulation.


Excerpt from  themindunleashed.org


The structures of the universe and the human brain are strikingly similar.

In the Eastern spiritual discipline of Daoism, the human body has long been viewed as a small universe, as a microcosm. As billion-dollar investments are made in the United States and Europe to research brain functioning, the correlations between the brain and the universe continue to emerge.

The two pictures below illustrate the similarities. The top picture shows the neural network of a brain cell; the bottom picture shows the distribution of dark matter in the universe as simulated by Millennium Simulation.

The pictures show a structural similarity in terms of connections and distribution of matter in the brain and in the universe. The photo on the left is a microscopic view, the one on the right is a macroscopic view.

The brain is like a microcosm.

A study conducted by Dmitri Krioukov of the University of California and a team of researchers published in Nature last year shows striking similarities between neural networks in the brain and network connections between galaxies.

Krioukov’s team created a computer simulation that broke the known universe down into tiny, subatomic units of space-time, explained Live Science. The simulation added more space-time units as the history of the universe progressed. The developing interactions between matter in galaxies was similar to the interactions that comprise neural networks in the human brain.
Physicist Kevin Bassler of the University of Houston, who was not involved in the study, told Live Science that the study suggests a fundamental law governing these networks.

In May 2011, Seyed Hadi Anjamrooz of the Kerman University of Medical Sciences and other Iranian medical scientists published an article in the International Journal of the Physical Sciences on the similarities between cells and the universe. They explain that a black hole resembles the cell nucleus. A black hole’s event horizon—a sort of point of no return where the gravitational pull will suck objects into the black hole—also resembles the nuclear membrane.

The event horizon is double-layered, as is the nuclear membrane. Much like the event horizon, which prevents anything that enters from leaving, the nuclear membrane separates cell fluids, preventing mixing, and regulates the exchange of matter between the inside and outside of the nucleus. Black holes and living cells also both emit pockets of electromagnetic radiation, among other similarities.

The researchers wrote: “Nearly all that exists in the macrouniverse is mirrored in a biological cell as a microuniverse. Simply put, the universe can be pictured as a cell.”

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Microsoft to help NASA scientists virtually explore Mars with HoloLens

January 23, 2015 / / 0 Comments





Excerpt from tech.firstpost.com


The US space agency has teamed up with Microsoft to develop a new software that will enable scientists to work on Mars virtually using a wearable technology called Microsoft HoloLens.

Developed by Nasa’s Jet Propulsion Laboratory (JPL) in Pasadena, the software called OnSight will give researchers a means to plan and, along with the Mars Curiosity rover, conduct science operations on the Red Planet, the US space agency said in a statement.

“OnSight gives our rover scientists the ability to walk around and explore Mars right from their offices,” said Dave Lavery, program executive for the Mars Science Laboratory mission at Nasa Headquarters in Washington, DC.

OnSight will use real rover data and extend the Curiosity mission’s existing planning tools by creating a 3D simulation of the Martian environment where scientists around the world can meet. Program scientists will be able to examine the rover’s worksite from a first-person perspective, plan new activities and preview the results of their work firsthand.

“We believe OnSight will enhance the ways in which we explore Mars and share that journey of exploration with the world,” added Jeff Norris, JPL’s OnSight project manager.

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New EAGLE Simulation Shows Galaxies as They Really Are ~ Video

January 13, 2015 / / 0 Comments


The EAGLE simulation of the universe generates a more accurate picture of galaxies than any simulation of this size before it.



Excerpt from space.com

Galaxies come in all different shapes and sizes, and a massive new simulation of the universe has captured that galactic variety with more accuracy than any simulation before it, according to a new study.

Using a simulation called EAGLE (Evolution and Assembly of GaLaxies and their Environments), researchers from multiple institutes in Europe have cooked up a dazzling simulation of the universe that contains tens of thousands of galaxies.



A sample of the new simulation can be seen in the video above. It shows the evolution of the universe in a region 25 megaparsecs cubed (about 81 million light years).



"This is really a staggering success, I think it's fair to say," Rob Crain from Liverpool John Moores University and a member of the group that built EAGLE, told Space.com. The researchers are part of a collaboration called the Virgo Consortium for Cosmological Supercomputer Simulations. "Go to our previous generation of simulations, and the galaxies all look like big spherical blobs. Now they form disks and bars and irregular galaxies and different types of ellipticals."

A computer simulation is like a recipe for the universe. Scientists have to start with a list of ingredients and instructions — which actually means a description of the physics that underlie the current universe. While many simulations can recreate the major cosmic ingredients (like stars and galaxies), the subtleties are harder to achieve (like the shape, mass and distribution of those stars and galaxies).

The bottom right corner of the screen shows the time after the Big Bang (denoted by "t"). In the early universe, matter is dispersed and hazy, but gradually coalesces into a sort of web, with long strands of material connecting nodes where galaxies are clustered. At 1:06, the simulation starts again from the beginning and shows the three major components of the model: dark matter (labeled as CDM), gas (the red globs are gas clouds where stars are often born), and stars. The full EAGLE simulation contains an area 100 megaparsecs cubed.

One goal of the EAGLE group was to produce a simulation large enough that it contained all types of galaxies seen in the universe. This allows the researchers to find out if the physics they programmed into EAGLE are accurate for all galaxies, and if they produce the correct number of galaxies in the universe.




Schaye said the picture of the universe created by the EAGLE simulation "is not perfect, but for astronomers the level of agreement is very impressive. It seems we have the main ingredients in place."

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Giant Dunes on Saturn’s Moon Titan

December 8, 2014 / / 0 Comments





Excerpt from space.com

The towering dunes on Saturn's largest moon, Titan, may look similar to the sandy hills of Earth's Sahara, but their origins are completely different, researchers say. Instead of forming continuously over time like on Earth, Titans dunes are forged by short, powerful rogue winds.

Reaching heights of more than 300 feet (91 meters), the dunes of Titan present a puzzling mystery: they seem to form in the opposite direction as Titan's steady east-to-west winds. Two new studies suggest that rare bursts of wind blowing westward are responsible for these enormous structures. The findings shed light on the remote satellite that shares many qualities with Earth.

"It was a bear to operate, but Dr. Burr's refurbishment of the facility as a Titan simulator has tamed the beast. It is now an important addition to NASA's arsenal of planetary simulation facilities," John Marshall, of the SETI Institute, and a co-author on the new research, said in the statement.

Titan's dunes are not made of the kind of sand found in deserts on Earth, but a more viscous material. Scientists don't know exactly what it is, only that it is made of hydrogen and carbon — two ingredients that can be used to create a laundry list of different materials on Earth, from methane to paraffin wax. According to Burr, the hydrogen-carbon material may coat particles of water ice.
The researchers found that the regular east-to-west winds are not strong enough to shape the viscous material into the massive dune shapes that are observed. Instead, they believe the dunes are shaped by short, rapid bursts of westerly wind. The winds on Titan "occasionally reverse direction and dramatically increase in intensity due to the changing position of the Sun in its sky," the statement said.

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What if our reality were a computer simulation? Can we hack into the program of existence?

November 30, 2014 / / 0 Comments

 What if our reality were a computer simulation? Once we discover that, can we hack into the programme of existence? Can we stop ourselves from being shut down? Edeline discusses the possibility of our reality being nothing more than coded info...

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Creation in Progress: Young mother star HL Tau gives birth to her solar system ~ Greg Giles

November 6, 2014 / / 0 Comments

The young mother star HL Tau giving birth to her solar systemThe Atacama Large Millimeter/Submillimeter Array, or ALMA space telescope, mounted on a hillside in northern Chile, has captured a stunning image of creation in progress 450 light-years from...

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Is Our World A Hologram? ~ A Very Intriguing Lecture by Leonard Susskind

October 21, 2014 / / 0 Comments

One of my all-time favorite subjects. I would be very surprised to one day learn that our reality was not either a hologram, an illusion, or a computer simulation. Greg

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Rebooting The Cosmos: Is the Universe the Ultimate Computer? Video

September 30, 2014 / / 0 Comments

Credit: Gary LarsonOne of my favorite subjects; are we living inside a virtual computer simulation? There certainly appears to be evidence of this possibility, and this evidence is growing as humanity strives to understand more of our reality. GregClic...

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Black holes do NOT exist and the Big Bang Theory is wrong, claims scientist – and she has the maths to prove it

September 25, 2014 / / 0 Comments




dailymail.co.uk

By Jonathan O’Callaghan

  • Scientist claims she has mathematical proof black holes cannot exist
  • She said it is impossible for stars to collapse and form a singularity
  • Professor Laura Mersini-Houghton said she is still in 'shock' from the find
  • Previously, scientists thought stars much larger than the sun collapsed under their own gravity and formed black holes when they died
  • During this process they release a type of radiation called Hawking radiation
  • But new research claims the star would lose too much mass and wouldn't be able to form a black hole
  • If true, the theory that the universe began as a singularity, followed by the Big Bang, could also be wrong

  • When a huge star many times the mass of the sun comes to the end of its life it collapses in on itself and forms a singularity – creating a black hole where gravity is so strong that not even light itself can escape.
    At least, that’s what we thought.
    A scientist has sensationally said that it is impossible for black holes to exist – and she even has mathematical proof to back up her claims.
    If true, her research could force physicists to scrap their theories of how the universe began.
    A scientist from University of North Carolina states she has mathematical proof that black holes (illustrated) can't exist. She said it is impossible for stars to collapse and form a singularity. Previously, scientists thought stars larger than the sun collapsed under their own gravity and formed black holes as they died

    A scientist from University of North Carolina states she has mathematical proof that black holes (illustrated) can’t exist. She said it is impossible for stars to collapse and form a singularity. Previously, scientists thought stars larger than the sun collapsed under their own gravity and formed black holes as they died
    The research was conducted by Professor Laura Mersini-Houghton from the University of North Carolina at Chapel Hill in the College of Arts and Scientists.

    She claims that as a star dies, it releases a type of radiation known as Hawking radiation – predicted by Professor Stephen Hawking.

    THE BLACK HOLE INFORMATION PARADOX

    One of the biggest unanswered questions about black holes is the so-called information paradox.
    Under current theories for black holes it is thought that nothing can escape from the event horizon around a black hole – not even light itself.
    Inside the black hole is thought to be a singularity where matter is crushed to an infinitesimally small point as predicted by Einstein’s theory of gravity.
    However, a fundamental law of quantum theory states that no information from the universe can ever disappear.
    This creates a paradox; how can a black hole make matter and information ‘disappear’?
    Professor Mersini-Houghton’s new theory manages to explain why this might be so – namely because black holes as we know them cannot exist.
    However in this process, Professor Mersini-Houghton believes the star also sheds mass, so much so that it no longer has the density to become a black hole.
    Before the black hole can form, she said, the dying star swells and explodes.
    The singularity as predicted never forms, and neither does the event horizon – the boundary of the black hole where not even light can escape.
    ‘I’m still not over the shock,’ said Professor Mersini-Houghton.
    ‘We’ve been studying this problem for a more than 50 years and this solution gives us a lot to think about.’
    Experimental evidence may one day provide physical proof as to whether or not black holes exist in the universe.
    But for now, Mersini-Houghton says the mathematics are conclusive.
    What’s more, the research could apparently even call into question the veracity of the Big Bang theory.
    Most physicists think the universe originated from a singularity that began expanding with the Big Bang about 13.8 billion years ago.
    If it is impossible for singularities to exist, however, as partially predicted by Professor Mersini-Houghton, then that theory would also be brought into question.

    THIS is what a black hole looks like – simulation shows disc…
    During the collapse process stars release a type of radiation called Hawking radiation (shown). But Professor Mersini-Houghton claims this process means the star loses too much mass and can't form a black hole. And this also apparently means the Big Bang theory, that the universe began as a singularity, may not be correct
    During the collapse process stars release a type of radiation called Hawking radiation (shown). But Professor Mersini-Houghton claims this process means the star loses too much mass and can’t form a black hole. And this also apparently means the Big Bang theory, that the universe began as a singularity, may not be correct

    THERE ARE NO BLACK HOLES, ONLY GREY HOLES, CLAIMS HAWKING

    Earlier this year Professor Stephen Hawking shocked physicists by saying ‘there are no black holes’.
    In a paper published online, Professor Hawking instead argues there are ‘grey holes’
    ‘The absence of event horizons means that there are no black holes – in the sense of regimes from which light can’t escape to infinity,’ he says in the paper, called Information Preservation and Weather Forecasting For Black Holes.
    He says that the idea of an event horizon, from which light cannot escape, is flawed.
    He suggests that instead light rays attempting to rush away from the black hole’s core will be held as though stuck on a treadmill and that they can slowly shrink by spewing out radiation.
    One of the reasons black holes are so bizarre is that they pit two fundamental theories of the universe against each other.
    Namely, Einstein’s theory of gravity predicts the formation of black holes. But a fundamental law of quantum theory states that no information from the universe can ever disappear.
    Efforts to combine these two theories proved problematic, and has become known as the black hole information paradox – how can matter permanently disappear in a black hole as predicted?
    Professor Mersini-Houghton’s new theory does manage to mathematically combine the two fundamental theories, but with unwanted effects for people expecting black holes to exist.
    ‘Physicists have been trying to merge these two theories – Einstein’s theory of gravity and quantum mechanics – for decades, but this scenario brings these two theories together, into harmony,’ said Professor Mersini-Houghton.
    ‘And that’s a big deal.’

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