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Big Bang Theory

Big Bang theory is the leading explanation for how our universe began. According to the theory, the entire universe began as a tiny singularity that went through an explosive expansion 13.8 billion years ago, gradually expanding into the cosmos we see today. Today, astronomers can detect an "echo" from the Big Bang in the cosmic microwave background, a phenomenon that can be detected with radio telescopes. Big Bang Theory is also the name of a popular CBS sitcom about scientists, where several real-life scientists and astronauts have appeared.

Related Topics: Black Holes, Dark Matter, Gravitational Waves, The Theory of Relativity in Space 

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2013 map of background radiation left from the Big Bang

What is the Big Bang Theory?

By Elizabeth Howell

The Big Bang Theory explains how the universe began.

Artist's illustration of a supermassive black hole emitting a jet of energetic particles.

Some supermassive black holes may contain fingerprints from the Big Bang

By Paul Sutter

The elements around some giant black holes may be subtly different from the cosmic average, retaining a relic memory of the young universe.

An artist's impression of dark matter in the beginning of the universe.

Is dark matter made of 'Fermi balls' forged in the Big Bang?

By Paul Sutter

A new theory suggests dark matter may have come from quantum bags that got squished together in the early universe.

The Crab Nebula as seen by the Hubble Space Telescope and ground-based telescopes in a composite view. The nebula is the aftermath of a brilliant supernova spotted in 1054.

Is there really a 'crisis' in cosmology?

By Paul Sutter

You may have heard about the "cosmology crisis:" Different methods of measuring the age of the universe are giving different results, and cosmologists have no idea why.

An artist's interpretation of the Big Bang

Seeing the 'real' Big Bang through gravitational waves

By Paul Sutter

The earliest and most momentous epoch in the history of the universe released a flood of gravitational waves, tiny ripples in the fabric of space-time.

Abstract image of a cosmic donut.

Our universe might be a giant three-dimensional donut, really.

By Paul Sutter

Astrophysicists say our universe might be shaped like a three-dimensional donut, meaning you could point a spaceship in one direction and eventually return to where you started.

Quantum bubbles and multiverses.

10 wild theories about the universe

By How It Works magazine, Andrew May

Why is the universe the way it is? Over the years, scientists have explored many ways to explain the cosmos, leading to some crazy-sounding ideas.

Energy lines

Phantom energy and dark gravity: Explaining the dark side of the universe

By Paul Cockburn, All About Space magazine

Understanding the 'undetectable' cosmos could lead to significant changes in some highly cherished theories about space-time.

Can we stop time?

Can we stop time?

By Adam Mann

Here's how we might stop the flow of time.

inside A Large Ion Collider Experiment

1st matter in the universe may have been a perfect liquid

By Mara Johnson-Groh

Scientists have recreated the first matter that appeared after the Big Bang in the Large Hadron Collider.

Countless galaxies in the universe imaged by the Hubble Space Telescope.

This week on the Space.com forums: Defining nothing, spin in space and a fun quiz!

By Mohamed Mohammed

This week on the forums, the community takes on the concept of nothingness. We also discuss spinning in space and try a fun quiz!

Galaxy clusters in the "cosmic web."

Is there a pattern to the universe?

By Paul Sutter

For decades, cosmologists have wondered if the large-scale structure of the universe is a fractal — that is, if it looks the same no matter how large the scale.

Theoretical physicist and science popularizer Brian Greene presenting at the World Science Festival.

Black holes, string theory and more: Q&A with physicist Brian Greene

By Mike Wall

Space.com caught up with Greene to discuss the importance of science education, why black holes are so interesting and whether a "theory of everything" breakthrough could be on the horizon.

A top view of the equipment used in the g-2 experiment at Fermilab. The experiment uses a muon beamline, electronic racks and superconducting magnetic storage ring cooled to minus 450 degrees Fahrenheit (minus 267 degrees Celsius) to study the wobble of muons.

A tiny, wobbling muon just shook particle physics to its core

By Ben Turner

But this may not be the end of the story.

This graphic shows a timeline of the universe based on the Big Bang theory and inflation models.

The 1st few seconds of the Big Bang: What we know and what we don't

By Paul Sutter

Believe it or not, physicists are attempting to understand the universe when it was only a handful of seconds old.

Diagram of the evolution of the universe from the inflation (left) to the present (right). The reconstruction method winds back the evolution from right to left on this illustration to reproduce the primordial density fluctuations from the current galaxy distribution.

Cosmologists create 4,000 virtual universes to solve Big Bang mystery

By Stephanie Pappas

Cosmologists simulated 4,000 versions of the universe in order to understand what its structure today tells us about its origins.

Scientists have found the first evidence for a rare type of Higgs boson decay.

Scientists find first evidence of rare Higgs boson decay

By Chelsea Gohd

Scientists have spotted the first evidence of a rare Higgs boson decay, expanding our understanding of the strange quantum universe.

In this all-sky map from Planck, a European Space Agency mission, the towers of fiery colors represent dust in the galaxy and beyond that has been polarized.

Twisted light from the beginning of time could reveal brand-new physics

By Mara Johnson-Groh

A new study on the rotation of the universe's first light could suggest physicists need new rule-breaking subatomic particles

An artist's concept of the Big Bang.

Mysterious 'kick' just after the Big Bang may have created dark matter

By Paul Sutter

A mysterious "kick" in the early universe may have produced more matter than antimatter. And that imbalance may have also led to the creation of dark matter, researchers now say.

Scientists have taken a fresh look at the universe to determine its age, settling old debates.

Astronomers reevaluate the age of the universe

By Chelsea Gohd

Scientists have taken a fresh look at the observable (expanding) universe and have estimated that it is 13.77 billion years old (plus or minus 40 million years).