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 

Latest Updates

The first publicly released science-quality image from NASA's James Webb Space Telescope, revealed on July 11, 2022, is the deepest infrared view of the universe to date.

No, the Big Bang theory is not 'broken.' Here's how we know.

By Paul Sutter published

Researchers confirmed that the distant galaxies discovered by the James Webb Space Telescope are, indeed, perfectly compatible with our modern understanding of cosmology.

the short story of the universe

'The Short Story of the Universe' fits a big topic into your pocket

By Elizabeth Howell published

The latest book from All About Space editor Gemma Lavender is 'The Short Story of the Universe.' It rounds up our complicated cosmic history in an engaging guide.

This illustration shows the three basic steps astronomers use to calculate how fast the universe expands over time, a value called the Hubble constant. All the steps involve building a strong "cosmic distance ladder," by starting with measuring accurate distances to nearby galaxies and then moving to galaxies farther and farther away. This ladder is a series of measurements of different kinds of astronomical objects with an intrinsic brightness that researchers can use to calculate distances.

How do we know the fundamental constants are constant? We don't.

By Paul Sutter published

Physicists have measured no changes in time or space for any of the fundamental constants of nature.

An artist's conception of the Big Bang birthing multiple galaxies.

How was the universe created?

By Paul Sutter published

We don't really know how the universe was created, though most astrophysicists believe it started with the Big Bang.

An interactive map of the universe displaying the actual positions and real colors of 200,000 galaxies.

Beautiful interactive map of the universe lets you journey through space-time almost to the Big Bang

By Robert Lea published

A new interactive map of the cosmos allows users to journey from our galaxy to the most distant sources of light that existed just after the Big Bang.

left and right panels show many galaxies; a central panel offers a detailed view of two galaxies

The James Webb Space Telescope is revealing the earliest galaxies of the universe like never before, scientists say

By Meghan Bartels published

NASA's newest space telescope has left scientists seeing distant stars — and galaxies.

glowing orange strings

Wrinkles left over from the Big Bang may have magnetized the universe

By Paul Sutter published

Researchers have proposed what's perhaps the most exotic explanation to date for the source of the universe's seed magnetic field: cosmic strings.

An illustration showing the bouncing universe model. Two cone-shaped grids full of stars and galaxies are arranged closed end to closed end.

'Bouncing' universe theory still can't explain what came first

By Robert Lea published

New research highlights a troubling problem with the concept of a cyclical universe that experiences infinite expansion and contraction, known as 'bouncing universe' models.

The ATLAS instrument at the Large Hadron Collider.

Famous Higgs boson behaves just as expected, 'most comprehensive studies' confirm

By Tereza Pultarova published

The "most comprehensive studies" of the Higgs boson conducted to date reveal that the particle behaves as expected and could help unlock some of the greatest mysteries of physics.

The Large Hadron Collider.

Large Hadron Collider scientists hail most powerful collisions ever as detector gets back to work

By Elizabeth Howell published

The Large Hadron Collider (LHC) is back with more powerful collisions than ever before and scientists are thrilled to see what they can learn.

A simulation of a galaxy cluster forming and evolving.

New simulation charts how the early universe developed within seconds of the Big Bang

By Elizabeth Howell published

A new simulation maps the first few seconds after the Big Bang, focusing on what scientists call the intergalactic medium, or the gas and dust between galaxies.

The FRIB's 46 cryomodules, which keep the ions cool while they are accelerated to blistering speeds.

World's most powerful heavy-ion collider to go online this week

By Ben Turner published

The collider cost $730 million and is many decades in the making

A view of the tunnel housing part of the upgraded Linac Coherent Light Source (LCLS) X-ray free-electron laser.

A particle accelerator is now colder than space to produce 1 million X-ray pulses a second

By Stefanie Waldek published

At that temperature, the Linac Coherent Light Source (LCLS) X-ray free-electron laser will be able to accelerate electrons close to the speed of light.

Was gravity stronger in the early universe?

Stronger gravity in the early universe may solve a cosmological conundrum

By Paul Sutter published

The inflationary epoch that caused our universe to rapidly expand in its earliest moments may be connected to the modern era of dark energy.

A data visualization of particle collisions at the LHC at CERN.

Large Hadron Collider experiment investigates neutrino's minuscule mass

By Chelsea Gohd last updated

Scientists are investigating the elusive neutrino with a new experiment at the Large Hadron Collider (LHC).

An illustration of hypothetically interacting dark matter particles. As we anticipate Run 3 with the LHC at Cern in 2022, scientists look forward to exploring the universe's biggest mysteries, including dark matter.

10 cosmic mysteries the Large Hadron Collider could unravel

By Chelsea Gohd last updated

What mysteries of the universe could the world's largest and most powerful particle accelerator unlock?

An artist's impression of star formation in the early universe, a few hundred million years after the Big Bang.

The universe could stop expanding 'remarkably soon', study suggests

By Brandon Specktor published

The universe may stop expanding in just 100 million years if dark energy decays over time, a new study suggests.

The Large Hadron Collider restarted after a three-year shutdown on April 22, 2022.

Large Hadron Collider hits world record proton acceleration

By Chelsea Gohd published

The newly-upgraded Large Hadron Collider just broke a world record with its proton beams.

The Large Hadron Collider restarted after a three-year shutdown on April 22, 2022.

Large Hadron Collider restarts to push physics to the edge

By Tariq Malik published

Scientists restarted the Large Hadron Collider on April 22 to hunt for dark matter and fringe physics.

Pressure waves

Upcoming satellite mission may 'see' how early universe cooled

By Ailsa Harvey published

As the early universe cooled shortly after the Big Bang, bubbles formed in its hot plasma, triggering gravitational waves that could be detectable even today, a new study suggests.