Meatpie

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Years from now
Event
10,000The end of humanity, according to Brandon Carter's Doomsday argument, which assumes that half of the humans who will ever have lived have already been born.[SUP][3][/SUP][SUP]$[/SUP]
36,000Ross 248 passes between 3.024 light years of Earth, becoming the Sun's closest star.[SUP][4][/SUP][SUP]₤[/SUP]
42,000Alpha Centauri becomes the nearest star system to the Sun once more.[SUP][4][/SUP][SUP]₤[/SUP]
50,000According to the work of Burger and Loutre,[SUP][5][/SUP] at this time the current interglacial ends, sending the Earth back into an ice age, assuming limited effects of anthropogenic global warming. Niagara Falls erodes away the remaining 20 miles to Lake Erie and ceases to exist.[SUP][6][/SUP][SUP]₩[/SUP]
100,000The hypergiant star VY Canis Majoris will have likely exploded in a hypernova.[SUP][7][/SUP][SUP]₤[/SUP]
250,000Lo'ihi, the youngest volcano in the Hawaiian-Emperor seamount chain, will rise above the surface of the ocean and become a new volcanic island.[SUP][8][/SUP][SUP]₩[/SUP]
500,000By this time Earth will have likely been impacted by a meteorite of roughly 1 km in diameter.[SUP][9][/SUP][SUP]₩[/SUP]
1 millionHighest estimated time until the red supergiant star Betelgeuse explodes in a supernova. The explosion is expected to be easily visible in daylight.[SUP][10][/SUP][SUP][11][/SUP][SUP]₤[/SUP]
1.4 millionGliese 710 passes within 1.1 light years of the Sun, potentially disturbing the Solar System's Oort cloud and increasing the likelihood of a comet impact in the inner Solar System.[SUP][12][/SUP][SUP]₤[/SUP]
10 millionThe widening East African Rift valley is flooded by the Red Sea, causing a new ocean basin to divide the continent of Africa.[SUP][13][/SUP][SUP]₩[/SUP]
11 millionThe moon Phobos collides with the surface of Mars.[SUP][14][/SUP][SUP]₩[/SUP]
50 millionThe Californian coast begins to be subducted into the Aleutian Trench[SUP][15][/SUP] Africa will have collided with Eurasia, closing the Mediterranean Basin and creating a mountain range similar to the Himalayas.[SUP][16][/SUP][SUP]₩[/SUP]
100 millionBy this time, the Earth will have likely been impacted by a meteorite comparable in size to that which triggered the K–T extinction 65 million years ago.[SUP][17][/SUP][SUP]₩[/SUP]
~240 millionFrom its present position, the Solar System will have completed one full orbit of the Galactic center.[SUP][18][/SUP][SUP]₤[/SUP]
250 millionAll the continents on Earth fuse into a possiblenewsupercontinent.[SUP][19][/SUP][SUP][20][/SUP][SUP]₩[/SUP]
600 millionAs weathering of Earth's surfaces increases with the Sun's luminosity, carbon dioxide levels in its atmosphere decrease. By this time, they will fall to the point at which C3 photosynthesis is no longer possible. All plants which utilise C3 photosynthesis (~99 percent of species) will die.[SUP][21][/SUP][SUP]₩[/SUP]
~800 millionCarbon dioxide levels fall to the point at which C4 photosynthesis is no longer possible. All plant species die. Free oxygen eventually disappears from the atmosphere.[SUP][21][/SUP][SUP]₩[/SUP]
1 billionThe Sun's luminosity increases by 10%, causing Earth's surface temperatures to reach an average of 47°C and the oceans to boil away.[SUP][22][/SUP][SUP]₩[/SUP]
1.5 billionThe Sun's circumstellar habitable zone moves outwards as its increased luminosity causes carbon dioxide to increase Mars's atmosphere, raising its surface temperatures to ice age Earth conditions.[SUP][23][/SUP][SUP]₩[/SUP]
3.3 billion1% chance that Mercury's orbit may become so elongated as to collide with Venus, sending the inner Solar System into chaos and potentially leading to a planetary collision with Earth.[SUP][24][/SUP][SUP]₤[/SUP]
3.5 billionSurface conditions on Earth are comparable to those on Venus today.[SUP][25][/SUP][SUP]₩[/SUP]
3.6 billionNeptune's moon Triton falls through the planet's Roche limit, potentially disintegrating into a new planetary ring system.[SUP][26][/SUP][SUP]₤[/SUP]
5.4 billionThe Sun becomes a red giant.[SUP][27][/SUP]Mercury, Venus and possibly Earth are destroyed.[SUP][28][/SUP] During these times, it is possible that Saturn's moon Titan could achieve surface temperatures necessary to support life.[SUP][29][/SUP][SUP][30][/SUP][SUP]₤[/SUP]
7 billionCollision between the Milky Way and Andromedagalaxies.[SUP][31][/SUP][SUP]₤[/SUP]
7.4 billionSun becomes a white dwarf[SUP][32][/SUP][SUP][33][/SUP][SUP]₤[/SUP]
10 billionEstimated lifespan of a globular cluster before its stars are ejected by gravitational interactions.[SUP][34][/SUP][SUP]₤[/SUP]
20 billionThe end of the Universe in the Big Rip scenario.[SUP][35][/SUP] Observations of galaxy cluster speeds by the Chandra X-Ray Observatory suggest that this will not occur.[SUP][36][/SUP][SUP]₤[/SUP]
50 billionAssuming both survive the Sun's expansion, by this time the Earth and the Moon become tidelocked, with each showing only one face to the other.[SUP][37][/SUP][SUP][38][/SUP][SUP]₤[/SUP]
100 billionThe Universe's expansion causes all evidence of the Big Bang to disappear beyond the practical observational limit, rendering cosmology impossible.[SUP][39][/SUP][SUP]₤[/SUP]
450 billionMedian point by which the Local Group, the collection of ~47 galaxies to which the Milky Way belongs,[SUP][40][/SUP] will coalesce into a single large galaxy.[SUP][41][/SUP] [SUP]₤[/SUP]
10[SUP]12[/SUP] (1 trillion)Low estimate for the time until star formation ends in galaxies as galaxies are depleted of the gas clouds they need to form stars.[SUP][41][/SUP][SUP], §IID.[/SUP][SUP]₤[/SUP]
2×10[SUP]12[/SUP] (2 trillion)All galaxies outside the Local Supercluster are no longer detectable in any way, assuming that dark energy continues to make the Universe expand at an accelerating rate.[SUP][42][/SUP][SUP]₤[/SUP]
10[SUP]13[/SUP] (10 trillion) to 2×10[SUP]13[/SUP] (20 trillion)Lifetime of the longest-lived stars, low-mass red dwarfs.[SUP][41][/SUP][SUP] §IIA.[/SUP][SUP]₤[/SUP]
3 x 10[SUP]13[/SUP] (30 trillion)Estimated time for the white dwarf Sun to undergo a close encounter with another stellar remnant in the local Solar neighborhood. Whenever two objects pass close to each other, the orbits of their planets can be disrupted and the planets can be ejected from orbit around their parent objects. Planets with closer orbits take longer to be ejected in this manner on average because a passing object must make a closer pass to the planet's primary to eject the planet.[SUP][43][/SUP][SUP][41][/SUP][SUP], §IIIF, Table I.[/SUP] [SUP]₤[/SUP]
10[SUP]14[/SUP] (100 trillion)High estimate for the time until star formation ends in galaxies.[SUP][41][/SUP][SUP], §IID.[/SUP] This marks the transition from the Stelliferous Era to the Degenerate Era;[SUP][44][/SUP] once star formation ends and the least massive red dwarfs exhaust their fuel, the only stellar-mass objects remaining are stellar remnants (white dwarfs, neutron stars and black holes.) Brown dwarfs also remain.[SUP][41][/SUP][SUP] §IIE.[/SUP] [SUP]₤[/SUP]
10[SUP]15[/SUP] (1 quadrillion)Estimated time until stellar close encounters detach all planets in the Solar System from their orbits.[SUP][41][/SUP][SUP], §IIIF, Table I.[/SUP] By this time, the Sun will have cooled to five degrees above absolute zero.[SUP][45][/SUP][SUP]₤[/SUP]
10[SUP]19[/SUP] to 10[SUP]20[/SUP]Estimated time until brown dwarfs and stellar remnants are ejected from galaxies. When two objects pass close enough to each other, they exchange orbital energy with lower-mass objects tending to gain energy. The lower-mass objects can gain enough energy in this manner through repeated encounters to be ejected from the galaxy. This process causes the galaxy to eject the majority of its brown dwarfs and stellar remnants.[SUP][41][/SUP][SUP], §IIIA;[/SUP][SUP][46][/SUP][SUP]₤[/SUP]
10[SUP]20[/SUP]Estimated time until the Earth's orbit around the Sun decays via emission of gravitational radiation,[SUP][47][/SUP] if the Earth is neither first engulfed by the red giant Sun a few billion years from now[SUP][48][/SUP][SUP][49][/SUP] nor ejected from its orbit by a stellar encounter before then.[SUP][47][/SUP][SUP]₤[/SUP]
10[SUP]32[/SUP]The smallest possible value for proton half-life consistent with experiment.[SUP][50][/SUP][SUP]€[/SUP]
3×10[SUP]34[/SUP]The estimated time for all nucleons in the observable Universe to decay, if the proton half-life takes its smallest possible value.[SUP][51][/SUP][SUP]€[/SUP]
10[SUP]41[/SUP]The largest possible value for the proton half-life, assuming that the Big Bang was inflationary and that the same process that made baryons predominate over anti-baryons in the early Universe makes protons decay.[SUP][41][/SUP][SUP], §IVA.[/SUP][SUP]€[/SUP]
3×10[SUP]43[/SUP]Estimated time for all nucleons in the observable Universe to decay, if the proton half-life takes the largest possible value, 10[SUP]41[/SUP] years, consistent with the conditions given above.[SUP][51][/SUP] By this time, if protons do decay, the Black Hole Era, in which black holes are the only remaining celestial objects, begins.[SUP][44][/SUP][SUP][41][/SUP][SUP]€[/SUP]
10[SUP]65[/SUP]Assuming that protons do not decay, estimated time for rigid objects like rocks to rearrange their atoms and molecules via quantum tunnelling. On this timescale all matter is liquid.[SUP][47][/SUP][SUP]€[/SUP]
2×10[SUP]66[/SUP]The estimated time until a black hole with the mass of the Sun decays by the Hawking process.[SUP][52][/SUP][SUP]€[/SUP]
1.7×10[SUP]106[/SUP]Estimated time until a supermassive black hole with a mass of 20 trillion solar masses decays by the Hawking process.[SUP][52][/SUP] This marks the end of the Black Hole Era. Beyond this time, if protons do decay, the Universe enters the Dark Era, in which all physical objects have decayed to subatomic particles, gradually winding down to their final energy state.[SUP][44][/SUP][SUP][41][/SUP][SUP]€[/SUP]
10[SUP]1500[/SUP]Assuming protons do not decay, the estimated time until all matter decays to iron-56.[SUP][47][/SUP][SUP]€[/SUP]
b9c369e69d17800cb56123122520c584.png
Low estimate for the time until all matter collapses into black holes, assuming no proton decay.[SUP][47][/SUP] Subsequent Black Hole Era and transition to the Dark Era are, on this timescale, instantaneous.[SUP]₤[/SUP]
f3ce154c55fb79be3c0dfba60b598027.png
Estimated time for a Boltzmann brain to appear in the vacuum via a spontaneous entropy decrease.[SUP][53][/SUP] [SUP]€[/SUP]
d4700e90b19b9ae1e3f0c49077041a08.png
Estimated time for random quantum fluctuations to generate a new Big Bang, according to Caroll and Chen.[SUP][54][/SUP][SUP]€[/SUP]
582ca9b0d171132c0d4b059714bd164d.png
High estimate for the time until all matter collapses into black holes, again assuming no proton decay.[SUP][47][/SUP][SUP]₤[/SUP]
37a50882480bc74120de2b6f1fc12254.png
High estimate for the time for the Universe to reach its final energy state.[SUP][53][/SUP] [SUP]€[/SUP]
8e5c4d84d911eadf95faa9b31c1771e1.png
Scale of an estimated Poincaré recurrence time for the quantum state of a hypothetical box containing an isolated black hole of stellar mass.[SUP][55][/SUP] This time assumes a statistical model subject to Poincaré recurrence. A much simplified way of thinking about this time is that in a model in which history repeats itself arbitrarily many times due to properties of statistical mechanics, this is the time scale when it will first be somewhat similar (for a reasonable choice of "similar") to its current state again.[SUP]$[/SUP]
b0cf5cbbace407b26d82ead2ea0fcc99.png
Scale of an estimated Poincaré recurrence time for the quantum state of a hypothetical box containing a black hole with the mass within the presently visible region of the Universe.[SUP][55][/SUP][SUP]$[/SUP]
b454ac1f2f8bd9c458b46bcbaebb9bd5.png
Scale of an estimated Poincaré recurrence time for the quantum state of a hypothetical box containing a black hole with the estimated mass of the entire Universe, observable or not, assuming Linde's chaotic inflationary model with an inflaton whose mass is 10[SUP]−6[/SUP] Planck masses.[SUP][55][/SUP][SUP]$[/SUP]

http://en.wikipedia.org/wiki/Timeline_of_the_far_future
Ssf
 
Mind-boggling :thinking: :confused: :stars:!

But now you've ruined it for us by giving away the ending :wtf: :this isnt happening.
 
Wow, nice find, MP. Of course you know that the Abrahamic god will wave his magic wand, and the earth will be recreated again for his perverted jollies. :yes:
 
In cosmological terms Earth doesn't have much time left, sad fact to contemplate and there wlll be absolutely no salvation, no mercy.
 
Before you worry about the predicted end of everything, keep in mind that just one hundred years ago, scientist were certain that Venus was Earth's twin and intelligent human like beings lived there. Up until the nineteen fifties, people on Earth thought there were martians. We have to accept that things change all of the time and we learn new things about the universe. Right now, we are on the verge of discovering that there is life on other planets around other stars. We didn't even know if there were planets around other stars until a few years ago.

A hypothesis being discussed lately is that life had a least two previous beginnings on this planet which were wiped out by cataclysmic events. But, the process of life has turned out to be extremely virulent. Humans may come and go. But, something else will take their place. Something a bit harder for people to wrap their thoughts around is that existence is infinitely large which makes our universe infinitely small. Big bangs happen all of the time on a cosmic time scale. Our universe is like a pebble dropped into a mud puddle. The waves move outward until they can no longer carry any information and they cease. But, other pebbles are dropping.
 
This is sort of good news. According to quantum physics, 'information' once created, can not be destroyed. Some scientists who study human consciousness (a field still not well understood), suggest that quantum level events are taking place in our minds that connect us to common collection of information. It suggests that we may have the ability to access this information in a manner we think of as psychic phenomena. Our consciousness sort of hovers at the edge of this repository and our minds aren't yet evolved enough to readily access it. But, as goes evolution, some human beings appear to be gaining the ability to access it just barely.


Quantum physics appears to allow for a common repository because information can not destroyed. Information is created an time any event takes place no matter how minor. Information is created everywhere because it defines our existence. One hypothesis suggests that when we die, our consciousness somehow merges into the common repository. Its not an issue of heaven or hell. We may lose our identity entirely. But, the information that was our consciousness remains. Maybe we don't simply become nothing when we die. Quantum physics is fascinating.
 
If we can survive the next 100 to 200 years we don't have to be passive victims to what the universe throws at us - if we cannot learn to become more we don't deserve to survive anyway or we could all be Sims in some alien's fake universe while they enjoy watching
 
Everybody knows that we are all living on one of the little yellow cells in Homer Simpson's head anyway! But, just in case, the far fetched theory from Wikipedia is true............only 10,000 more Christmases!............PANIC!
 
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