What era is our universe in?
What era is our universe in?
Tabular summary
Epoch | Time | Redshift |
---|---|---|
Present time | 13.8 Ga | 0 |
Alternative subdivisions of the chronology (overlapping several of the above periods) | ||
Radiation-dominated era | From inflation (~ 10−32 sec) ≈ 47 ka | > 3600 |
Matter-dominated era | 47 ka ~ 9.8 Ga | 3600 ~ 0.4 |
Are we in the second era?
Right now, we’re in the second era. We’re in the middle, or thereabouts, of the universe’s Stelliferous era.
What happens after the degenerate era?
Over the duration of the Degenerate Era, stellar remnants and even galaxies will undergo a series of collisions and near collisions. In our current era, these collisions often produce merged galaxies and encourage star formation.
How long is the degenerate era?
Ten Trillion Trillion Trillion years
This era extends to Ten Trillion Trillion Trillion years after the Big Bang. Most of the mass that we can currently see in the universe is locked up in degenerate stars, those that have blown up and collapsed into black holes and neutron stars, or have withered into white dwarfs.
What comes after the Black Hole Era?
Dark Era
Everlasting darkness The period following the demise of black holes is known as the Dark Era, which is expected to begin sometime around 10101 years after the Big Bang, though its start depends on how long black holes last.
When did the third era end?
3E 433
Elder Scrolls Timeline
1E 0 | First Era begins when King Eplear founds the Camoran Dynasty |
---|---|
3E 433 | During the Oblivion Crisis, Martin Septim sacrifices himself and the Amulet of the Kings to banish Mehrunes Dagon from Tamriel |
3E 433 | The Third Era comes to an end with the close of the Oblivion Crisis |
How many years are in a Skyrim era?
Adding up the first Era (2920 years), second Era (897 years), the third Era (433 years), and the fourth Era (201 years) gets you 4451 years, more than twice where we are in Earth years.
Will star formation stop?
Star formation ceases By 1014 (100 trillion) years from now, star formation will end. This period, known as the “Degenerate Era”, will last until the degenerate remnants finally decay. The least massive stars take the longest to exhaust their hydrogen fuel (see stellar evolution).
https://www.youtube.com/watch?v=0_wV4r_zkEs