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Comment by Scott on June 29, 2016 at 7:01am

Small Moon Discovered Orbiting Dwarf Planet Makemake (June 28, 2016)

Scientists have discovered a small moon orbiting Makemake, a dwarf planet found at the edge of our solar system in the Kuiper Belt region.

“Makemake’s moon proves that there are still wild things waiting to be discovered, even in places people have already looked,” said Alex Parker, lead author of the paper detailing the findings, in a statement.

http://time.com/4385809/moon-orbiting-makemake-solar-system/

ZetaTalk Chat Q&A for June 25, 2016

Prong 2 sought to answer why “Planet 9” evaded discovery for so long by suggesting that Hubble and Kepler and WISE looked afar, at bright objects, so that anything close in or somewhat dim would be missed. As evidence of this, the ESO’s observatory in Chile had discovered several exoplanets overlooked by the other sky mapping enterprises. Prong2’s agenda is to place into the public mind that an object such as Nibiru, shrouded by dust, could sneak into the Solar System unnoticed. To this end we have the newly announced second moon of Earth, an orbiting asteroid, just recently “discovered” by NASA.

Comment by Starr DiGiacomo on June 22, 2016 at 9:48pm

A full list of government FEMA preparations for catastrophe in place by Sept 29 2016. All systems GO by October 1st. The preparation announcements start @ 4:30  @ 6:15 the preps for a catastrophic EMP are listed GridX II a North American wide excercise.

http://www.nerc.com/pa/CI/CIPOutreach/Pages/GridEX.aspx

Due to resource constraints the Air Force to discontinue airforce space surveillance system as of October 1st.

FEMA district 3 alert for Wash. DC,  DE, MD, PA, VA, WV

FEMA purchase orders for 14.2 million MRE's  and 2 million water pouches to be delivered to District 3 by Oct 1st

FEMA purchase orders delivered to Austin 13.6 million dollars for MRE's and heater meals by Oct. 1st

9 week training course for UN Peacekeepers (Foreign Soldiers) to learn urban warfare, English and US Weapons systems ongoing since 4th week of July 2015 Estimated 386,000 troops completed training by Oct 1st 2016

11 million dollars in antibiotics ordered by CDC and delivered to FEMA region 3 by Oct 1st 2016

WHO had its 2nd meeting in its history to discuss MERS corona virus. Vaccine must be in place by Oct 1st 2016

2800 MRAP's (Mine resistant, ambush protected)  must be delivered to DHS by Oct 1st 2016

No leave will be allowed for US military from Sept 28th to November 5th.............

NORCON yearly training for civil unrest, suspended until Sept 27th and to be performed in NE Coastal areas

All DHS agents must qualify with sidearm, shotgun and AR-15 by Sept 28th 2016

Testing of GPS and communication satellites coordinated for the very 1st time EVER with testing date of Sept 29th 2016

POTUS mandates to FEMA and DHS dealing with Extreme Climate Change must be completed by Oct 1st 2016

Over 300 school systems in the US have in place their 3 day kits for each school and 3 day kits for each student to take with them ....deliveries scheduled for month of Sept 2016

All National Guard untits will complete riot control and disaster assistance training during their annual 2 week training. All training must be completed by Sept 30th 2016

Daily testing of EBS from Sept 25th through Oct 2nd 2016

Eastern based Coast Guard units to perform massive group training usually performed in the Gulf, in the VA and DE areas. It's a 10 day training mission beginning Sept 26th 2016

https://en.wikipedia.org/wiki/Ministry_of_Emergency_Situations_(Russia) (EMERCOM)

https://www.youtube.com/watch?v=fnC0Ct4G3mY

Comment by Starr DiGiacomo on June 19, 2016 at 6:04am

http://www.scienceworldreport.com/articles/42433/20160618/nasa-astr...

NASA Astronomers Discover Earth’s New Asteroid Companion

First Posted: Jun 18, 2016 04:59 AM EDT

NASA astronomers have discovered a tiny asteroid which is constantly orbiting the Earth around the sun. By NASA/JPL-Caltech, via Wikimedia Commons CC BY 2.0

NASA astronomers have discovered a tiny asteroid which is constantly orbiting the Earth around the sun.

The newly found asteroid, 2016 HO3, was spotted first on April 27 by the Pan-STARRS 1 asteroid survey telescope on Haleakala, Hawaii. While, the size of the "quasi-satellite" has not been confirmed yet, it's expected to be between 130 feet and 330 feet wide (40 to 100 meters). Astronomers claim that the asteroid has been out there for about 50 years and will probably stay for centuries to come.

The new asteroid orbits the sun and constantly circles around Earth as well. Does this mean that Earth has a new moon? Well, the answer is no. It is too far to be considered natural moon or a true satellite of the Earth. Instead, it can be called as a "quasi-satellite."

Comment by Mark on June 16, 2016 at 11:15am

The Daily Mail 'speculates' today what would happen if all 1,500 of the world's active volcanoes erupted all at once; and classifies 'active' as any volcano that has erupted in the last 10,000 years - exactly mirroring the Zeta's prediction that these would be the volcanoes that will erupt during the pole shift.

And just for good measure, says that the resulting ash fall out would somehow sink buildings!

--------------------------------------------------------------------------------------

What would happen if Earth's 1,500 volcanoes erupted at once? Experts outline terrifying doomsday scenario

http://www.dailymail.co.uk/sciencetech/article-3642494/What-happen-...

The Earth currently has 1,500 'active volcanoes' - meaning they have had at least one eruption during the past 10,000 years.

This is aside from the continuous belt of volcanoes on the ocean floor, about 500 of which have erupted in historical time.

However, not all eruptions are the same.

Dr Matthew Watson, a volcano specialist from the University of Bristol told MailOnline: 'You can broadly categorise eruptions into two different types.

'The first, effusive, produces lava flows and lots of gas. The second, explosive, produces ash and gas.

'The difference in activity is controlled mostly by the viscosity of the magma.

'The more viscous the magma, the more difficult it is to get gas out of the system and the more likely you are to have an explosion.'

Despite the type of eruptions differing massively, if all the world's volcanoes erupted at the same time, the results would be catastrophic in a number of ways.

Firstly, the people in the firing line of the eruption would be affected, not only by the flow of magma from the volcano, but also from the huge ash clouds expelled.

Pyroclastic flows are fast-moving clouds of rock, ash and gas that are very hot, with temperatures rising up to 1000°C.

These would be impossible to outrun or even drive, as they can travel up to 450 miles per hour.

As well as affecting people near the volcano itself, pyroclastic flows can cause destruction for up to 100 miles from the site.

The number of people living near volcanoes that this would affect is massive.

For example, around three million people live near Mount Vesuvius, while 130 million people live on the island of Java which alone has 45 active volcanoes.

The far-reaching damage

But the destruction close to the volcanoes would just be the beginning.

The eruptions would send plumes of volcanic ash into the sky that could travel for thousands of miles.

Dr Watson said: 'Ash is pretty unpleasant stuff. Its comprised of tiny fragments of glass, crystals and rock.'

Comment by Howard on June 16, 2016 at 5:11am

Newly Discovered Planet Has 27,000 Year Orbit Near Orion's Belt (Jun 15) CVSO 30c, orbits its star at 600 times the distance between the Earth and the sun. and it takes 27,000 years for it to complete a roundtrip.

The newly-discovered planet is orbiting a T-Tauri star named CVSO 30, which is 1,200 light-years away from Earth in the 25 Orionis group.  It was found by a group of astronomers led by Dr Tobias Schmidt, from the University of Hamburg.

In 2012, astronomers found CVSO 30 was host to one exoplanet (CVSO 30b). This was found using a detection method known as the transit method, where the light from a star observably dips as a planet travels in front of it.

But this method is extremely difficult. Because they are small and dim, planets are easily lost in the brilliant glare of the giant stars they orbit.

Direct imaging is only effective for planets on wide orbits around young stars, because the light from the planet is not overwhelmed by light from the host star, which makes it easier to spot. 

The new planet, CVSO 30c, was able to be seen through direct imaging because it orbits so unusually far from its host star - at 600 times the distance between the Earth and the sun.

Because of this, it takes an incredible 27,000 years to complete a single orbit.

Source

http://www.dailymail.co.uk/sciencetech/article-3642656/The-lonely-p...

Comment by SongStar101 on June 15, 2016 at 7:36am

Planet Nine is not alone: More planets predicted to be hiding at edge of Solar System

http://www.ibtimes.co.uk/planet-nine-not-alone-more-planets-predict...

The Solar System could be harbouring far more planets than we currently know about, astronomers have said. After carrying out calculations relating to the hypothetical Planet Nine, the scientists said the presence of even more planets could better explain the unusual orbits of objects at the far reaches of the Solar System.

Artist's impression of Planet Nine, the planet speculated to exist in our Solar System by scientistsCaltech/R. Hurt IPAC

Evidence for the existence of Planet Nine was presented by Caltech scientists earlier this year. Scientists found six trans-Neptunian objects (ETNOs) with highly unusual orbital paths. However, they said these paths could be explained by the presence of a massive planet (about 10 times the mass of the Earth), the gravity of which was influencing the six objects.

Since the announcement, scientists across the globe have been running computer simulations and carrying out research in a bid to learn more about this potential planet.

Spanish astronomers Carlos and Raúl de la Fuente Marcos along with Sverre J. Aarseth from the University of Cambridge have now looked more closely at the orbits of the ETNOs. By trying to work out their evolution over time, the team said the orbits of these objects are not as stable as scientists first thought.

Published in the journal Monthly Notices Of The Royal Astronomical Society, researchers found Planet Nine could keep three of the ETNOs confined to a specific orbit for hundreds of millions of years. However, the three others would become highly unstable in just a dozen million years or so, "eventually triggering their ejection from the Solar System," they wrote.

Carlos de la Fuente Marcos said: "With the orbit indicated by the Caltech astronomers for Planet Nine, our calculations show that the six ETNOs, which they consider to be the Rosetta Stone in the solution to this mystery, would move in lengthy, unstable orbits.

"These objects would escape from the Solar System in less than 1.5 billion years and [three of them would] abandon it in less than 300 million years; what is more important, their orbits would become really unstable in just 10 million years − a really short amount of time in astronomical terms." To account for this problem, the authors say Planet Nine's proposed orbit needs to be slightly modified.

The unusual orbits of objects around Planet 9Caltech/R. Hurt IPAC

Further to this, however, the researchers say the presence of additional planets would help explain Planet Nine and its ETNOs stable orbits. "We believe that, in addition to a Planet Nine, there could also be a Planet 10 and even more," said Carlos de la Fuente Marcos.

The study concludes: "Is Planet Nine alone or are there more? Planet Nine, if it exists, moves in an elongated orbit that may be vulnerable to long-term secular perturbations resulting from the Galactic tide or discrete events like close encounters with passing stars.

"In this context, a lone Planet Nine may not be able to survive in its present orbit for the age of the Solar System, but a planet within a planetary group has better chances to be long-term stable. Therefore, if Planet Nine exists, it is probably not alone."

Comment by Stanislav on June 14, 2016 at 5:32pm

Planet X approach is ‘causing devastating climate and seismic activity’

8 January, 2016. THE mysterious Planet X is approaching and will cause widespread destruction across Earth, a conspiracy theorist has claimed.

Although the planet has not even been confirmed by scientists, some believe that there is an elusive planet in our solar system which has a huge orbit and such a strong magnetic pull that it can effect life on Earth.

A new video uploaded to YouTube by Skywatch Media News says that Planet X is bound for Earth after completing half of its 3,600-year elliptical orbit.

It says that the magnetic force of Planet X is so strong that it can effect anything within 48.6 astronomical units (AU) of it – one AU is the distance between Earth and the Sun.

With the planet having completed the first half of its elliptical orbit, it is heading back towards Earth and its strong magnetic pull is causing problems already.

The video claims that the magnetic pull is tugging on the poles of Earth, causing it to wobble.

This explains why Earth has undergone climate change in recent years as the Earth is moving slightly off its axis.

The North pole is being dragged slightly southwards, meaning that the polar ice caps are facing more towards the sun, causing them to melt.

The video states that: “We are now in the initial stage of the pole shift.”

This in turn has led to extreme climate change: “Weather is becoming more extreme as Planet X’s strong magnetic pull effects that of Earth.”

Additionally, the shifting of the poles has caused an increase in seismic and volcanic activity.

Take a look through these stunning drone images, highlighting the effects of pollution on planet earth but also the opportunities to tackle this scary problem.
The narrator of the video points to the spate of tremors around the globe in the last couple of months, with deadly quakes striking Ecuador and Japan.

Additionally, he said that the “tremors are happening near to the surface”, which is making them more dangerous, and he claims that some volcanoes are approaching an unprecedented 40 eruptions a day.

He states: “One can argue that there is certainly evidence of Planet X’s effects upon Earth, causing it to wobble, which in turn causes high seismic and volcanic activity, as well as extreme weather.

“The Planet X effect is setting the Earth up for a coming pole shift.”

Although no one knows what might happen when Planet X reaches its closes point to Earth in its orbit, it is feared that it could spark another ice age or catastrophic earthquakes. Source: express.co.uk

Comment by Howard on June 14, 2016 at 6:34am

Planet Discovered that Orbits 2 Suns (Jun 13)

A team of astronomers announced the discovery of an unusual new transiting circumbinary planet (orbiting two suns).

This planet, detected using the Kepler spacecraft, is unusual because it is both the largest such planet found to date and has the widest orbit.

Kepler-1647b, the largest exoplanet to orbit two suns has been found with an orbital period of 3 years.

"It's a bit curious that this biggest planet took so long to confirm, since it is easier to find big planets than small ones," said another coauthor on the study, SDSU astronomer Jerome Orosz in a press release. "It took so long to confirm because its orbital period is so long."

Sources

http://www.usatoday.com/story/tech/sciencefair/2016/06/13/tatooine-...

http://www.hawaii.edu/news/2016/06/13/largest-widest-orbit-tatooine...

http://www.astronomy.com/news/2016/06/newly-discovered-tatooine-is-...

http://www.cnn.com/2016/06/14/health/nasa-kepler-tatooine-planet-tw...

Comment by Starr DiGiacomo on June 14, 2016 at 6:06am

http://www.theatlantic.com/technology/archive/2016/06/what-happens-...

What Happens If GPS Fails?

Despite massive reliance on the system’s clocks, there’s still no longterm backup.

In only took thirteen millionths of a second to cause a whole lot of problems.

Last January, as the U.S. Air Force was taking one satellite in the country’s constellation of GPS satellites offline, an incorrect time was accidentally uploaded to several others, making them out of sync by less time than it takes for the sound of a gunshot to leave the chamber.

The minute error disrupted GPS-dependent timing equipment around the world for more than 12 hours. While the problem went unnoticed by many people thanks to short-term backup systems, panicked engineers in Europe called equipment makers to help resolve things before global telecommunications networks began to fail. In parts of the U.S and Canada, police, fire, and EMS radio equipment stopped functioning. BBC digital radio was out for two days in many areas, and the anomaly was even detected in electrical power grids.

Despite its name, the Global Positioning System is not about maps; it’s about time. Each satellite in the constellation (24 are needed, plus the U.S. has several spares) has multiple atomic clocks on board, synchronized with each other and to Coordinated Universal Time (UTC)—the time standard used across the world—down to the nanosecond. The satellites continually broadcast their time and position information down to Earth, where GPS receivers in equipment from iPhones to automated tractors acquire signals and use the minuscule differences in their arrival time to determine an exact position.

What if all these flying clock radios were wiped out, and everything on the ground started blinking 12:00?

While GPS was initially conceived to aid navigation, globally synchronized time is now a much more critical function of the system. Telecom networks rely on GPS clocks to keep cell towers synchronized so calls can be passed between them. Many electrical power grids use the clocks in equipment that fine-tunes current flow in overloaded networks. The finance sector uses GPS-derived timing systems to timestamp ATM, credit card, and high-speed market transactions. Computer network synchronization, digital television and radio, Doppler radar weather reporting, seismic monitoring, even multi-camera sequencing for film production—GPS clocks have a hand in all.

But last January’s system failure brings up an often-ignored question: What if all these flying clock radios were wiped out, and everything on the ground started blinking 12:00? According to Mike Lombardi, a metrologist at the National Institute for Standards and Technology, “Nobody knows exactly what would happen.” Since so many of these technologies were designed specifically with GPS in mind, the unsettling truth, he says, is “there’s no backup.”

This isn’t a secret. Concern for the consequences of the country’s reliance on this invisible utility has been growing among industry and government workers for more than 15 years, after the Department of Transportation issued a report on the need for a backup navigation system, in 2001. But while the means to create one has existed since, a winding bureaucratic path has kept it from actually being implemented. And that leaves many of the everyday tools society depends on vulnerable until one is.

* * *

There are plenty of reasons GPS could fail.

Intentional attack is one, as emphasized by a declassified 2012 risk estimate by the Department of Homeland Security. One of the system’s most basic problems is its signals are weak enough to be easily obstructed. Truckers with cheap jamming devices designed to elude employer tracking have unintentionally interfered with airport systems; criminals thwarting GPS tags on stolen goods in shipping containers have accidentally shut down port operations.  On a grander scale, North Korea has tormented South Korea with waves of jamming attacks. (Jamming devices are now illegal in the U.S., but not difficult to obtain illicitly.)

A few steps up from jamming devices in both complexity and damage are spoofers: systems that get GPS receivers to lock on to mimicked signal. Spoofers don’t trigger equipment alarms, and deliver altered time and position information to unaware users. It's been suggested that Iran used this tactic tolead astray two U.S. Navy patrol boats captured in the Gulf last January.

“It wouldn't take that large of an event to take out all GPS."

A plausible worst-case attack scenario would look something like this: Spoofers feed erroneous data to electrical substation equipment in a metro area, which could overheat power lines and transformers, causing widespread outages. Meanwhile, multiple hidden jammers could cripple cellphone service, and also force fire, police, and emergency medicine departments to revert to old, single-frequency channels. Supplies in this scenario could only be bought in many places with cash, which would be limited without ATM service. According to the DHS report, it could take 30 days or more before the malicious devices are located and disabled. The longer it took, the more systems that would be compromised.

As for unintentional threats to GPS, the DHS risk estimate lists space debris, space weather, defective software, and good old-fashioned human mistakes, among other things. Of these threats, space weather is the most potentially catastrophic, according to Norwegian geophysicist Pal Brekke, whose country was hardest hit by the January outage. Eruptions of high energy radiation from the sun (known as solar flares) and ejections of electrically charged gases have disabled satellites in the past.

With satellites and the chips inside them getting smaller as technology progresses, "one particle from the sun that penetrates a satellite can ruin things,” Brekke says. “It wouldn't take that large of an event to take out all GPS."

* * *

So far, mitigating the loss of GPS signals has involved two approaches. One is interoperability with other global navigation satellite systems like Russia's GLONASS (which also failed due to a ground control error in 2014) or theEuropean and Chinese systems, both of which are expected to be up by 2020. The other is better clocks, says Lombardi, the NIST metrologist, who's published numerous articles on the topic. "The typical cell tower clock has an oscillator similar to that of a wristwatch," he says, "and can drift out of tolerance in minutes without a signal." How long a clock can maintain time on its own, called "holdover," also affects electrical grids, many of which rely on GPS-dependent devices called synchrophasors used to precisely regulate current flow, as well as help locate faults in the network. A lack of such timing technology was the reason it took some Canadian technicians three months to locate failures after theinfamous blackout of 2003.

Chip-scale atomic clocks the size of a penny are a promising new technology that can hold time for about a day, but are currently too expensive to deploy widely. Moreover, hedging and holdover still aren't backups for when space-based signals are simply unavailable.

The bulk of a more promising, comprehensive backup system already exists, right here on the ground. After the sextant but before GPS, navigators around the world used Long Range Aids to Navigation, or “LORAN,” a terrestrial system of transmitters and receiving equipment first developed during WWII. By the mid-1990s, Loran "tower chains" provided coverage for North America, Europe, and other regions in the Northern Hemisphere. Its use declined in favor of the much finer accuracy of GPS after it became available for civil use in 1995, but the U.S. Coast Guard continued working on an improved system using the existing infrastructure. If adopted, "Enhanced" LORAN, or eLoran, could provide positioning accuracy comparable to GPS. Broadcast at hundreds of thousands of watts, the signal is virtually un-jammable, and unlike GPS, can even be received indoors, underwater, and in urban or natural canyons. It also turns out that eLoran can provide a UTC time signal with sub-microsecond time resolution across a large geographical area.

The technology is available—the Coast Guard demonstrated a working prototypelast year—so why isn’t America using it? John Garamendi, a California congressman, asked this question at a July 2015 congressional hearing on the Federal Radionavigation Plan, the nation's primary planning document for position, navigation, and timing (PNT). "There are two kinds of time," he opened, "real time … and then federal time, which seems to be the forever time. The e-Loran system was identified as a backup 15 years ago, and here we are, federal time, not yet done."

Cost doesn’t seem to be a problem. A complete alternate PNT system is estimated at $350 million to $400 million; it costs $1 billion yearly to maintain GPS. And science and industry appears to share a consensus that eLoran is the solution. Even the Air Force Colonel and engineer who created GPS, Brad Parkinson, had been on record for years saying "eLoran is the only cost-effective backup for national needs."

In a 2004, a presidential directive tasked DHS and DOT with creating a backup to the GPS system. In 2008, the DHS issued a press release that it was committing to the system and transferred control from the Coast Guard to its National Protection and Programs Directorate. But push and pull between DHS and the Coast Guard appears to have slowed progress.

Space Katrina would be biblically catastrophic.

After this year’s satellite error, many European officials who had previously followed America’s reluctance to adopt eLoran stepped up development. Meanwhile, pressure from Garamendi, who argued in his address that “without an eLoran system in place ASAP, this country is in serious, serious jeopardy,” prompted a letter to him from the Deputy Secretaries of Defense and Transpor... informing that the PNT Executive Committee has agreed that an eLoran-based timing network “could provide a near term solution” (if private entities bore some of the cost) while they “continue [their] efforts to prescribe a complete set of requirements necessary to support a full complementary PNT capability for the nation.” In other words, it seems: federal time.

Why is the sense of urgency among decision-makers so out of sync? Could some of it be similar to why people delay backing up our computers even though they’ve been telling themselves to for weeks? How do we decide, when presented a risk with unknown odds, when it’s time to sacrifice time and resources to prevent it?  

Now is a critically important time to answer that question, as the world actually been given odds on another, even more catastrophic risk than GPS failure: destruction of the electrical power infrastructure itself. On July 23, 2012, a billion-ton cloud of electrified gases blasted off the far side o... at over six million miles per hour. According to professor Daniel Baker at University of Colorado, this coronal mass ejection (CME) "was in all respects at least as strong as the 1859 Carrington Event," referring to the strongest solar storm ever recorded, which set fire to telegraph stations and caused auroras down to Cuba. As was widely reported two years ago, if the 2012 CME had occurred one week later, it would have hit Earth.

Space Katrina would be biblically catastrophic. Power could be out for years while electrical transformers were repaired, if the resources are even available to do so. "Collateral effects of a longer-term outage would likely include disruption of the transportation, communication, banking, and finance systems, and government services; the breakdown of the distribution of potable water owing to pump failure; and the loss of perishable foods and medications because of lack of refrigeration,” reads a 2008 National Academy of Sciences report.

In 2014, physicist from San Diego calculated the likelihood of a Carrington-level event in the next decade. The odds he came up with were 12 percent.

The predicament of events like this is not that they’re occurring more frequently, but that the rapid development of technology is opening the tools on which humanity depends to an increasingly wide variety of rare but potentially destructive cosmic threats. In the span of a century, we’ve transferred much of the weight of modern society to global infrastructures with wobbly legs. If they collapse, time will very quickly appear to move backward.

Comment by Starr DiGiacomo on June 11, 2016 at 11:43pm

The NY Times

http://www.nytimes.com/2016/06/12/opinion/sunday/yes-there-have-bee...

Yes, There Have Been Aliens

Gray Matter

CreditGérard DuBois

LAST month astronomers from the Kepler spacecraft team announced the discovery of 1,284 new planets, all orbiting stars outside our solar system. The total number of such “exoplanets” confirmed via Kepler and other methods now stands at more than 3,000.

This represents a revolution in planetary knowledge. A decade or so ago the discovery of even a single new exoplanet was big news. Not anymore. Improvements in astronomical observation technology have moved us from retail to wholesale planet discovery. We now know, for example, that every star in the sky likely hosts at least one planet.

But planets are only the beginning of the story. What everyone wants to know is whether any of these worlds has aliens living on it. Does our newfound knowledge of planets bring us any closer to answering that question?

A little bit, actually, yes. In a paper published in the May issue of the journal Astrobiology, the astronomer Woodruff Sullivan and I show that while we do not know if any advanced extraterrestrial civilizations currently exist in our galaxy, we now have enough information to conclude that they almost certainly existed at some point in cosmic history.

Among scientists, the probability of the existence of an alien society with which we might make contact is discussed in terms of something called the Drake equation. In 1961, the National Academy of Sciences asked the astronomer Frank Drake to host a scientific meeting on the possibilities of “interstellar communication.” Since the odds of contact with alien life depended on how many advanced extraterrestrial civilizations existed in the galaxy, Drake identified seven factors on which that number would depend, and incorporated them into an equation.

The first factor was the number of stars born each year. The second was the fraction of stars that had planets. After that came the number of planets per star that traveled in orbits in the right locations for life to form (assuming life requires liquid water). The next factor was the fraction of such planets where life actually got started. Then came factors for the fraction of life-bearing planets on which intelligence and advanced civilizations (meaning radio signal-emitting) evolved. The final factor was the average lifetime of a technological civilization.

Drake’s equation was not like Einstein’s E=mc². It was not a statement of a universal law. It was a mechanism for fostering organized discussion, a way of understanding what we needed to know to answer the question about alien civilizations. In 1961, only the first factor — the number of stars born each year — was understood. And that level of ignorance remained until very recently.

That’s why discussions of extraterrestrial civilizations, no matter how learned, have historically boiled down to mere expressions of hope or pessimism. What, for example, is the fraction of planets that form life? Optimists might marshal sophisticated molecular biological models to argue for a large fraction. Pessimists then cite their own scientific data to argue for a fraction closer to 0. But with only one example of a life-bearing planet (ours), it’s hard to know who is right.

Or consider the average lifetime of a civilization. Humans have been using radio technology for only about 100 years. How much longer will our civilization last? A thousand more years? A hundred thousand more? Ten million more? If the average lifetime for a civilization is short, the galaxy is likely to be unpopulated most of the time. Once again, however, with only one example to draw from, it’s back to a battle between pessimists and optimists.

But our new planetary knowledge has removed some of the uncertainty from this debate. Three of the seven terms in Drake’s equation are now known. We know the number of stars born each year. We know that the percentage of stars hosting planets is about 100. And we also know that about 20 to 25 percent of those planets are in the right place for life to form. This puts us in a position, for the first time, to say something definitive about extraterrestrial civilizations — if we ask the right question.

In our recent paper, Professor Sullivan and I did this by shifting the focus of Drake’s equation. Instead of asking how many civilizations currently exist, we asked what the probability is that ours is the only technological civilization that has ever appeared. By asking this question, we could bypass the factor about the average lifetime of a civilization. This left us with only three unknown factors, which we combined into one “biotechnical” probability: the likelihood of the creation of life, intelligent life and technological capacity.

You might assume this probability is low, and thus the chances remain small that another technological civilization arose. But what our calculation revealed is that even if this probability is assumed to be extremely low, the odds that we are not the first technological civilization are actually high. Specifically, unless the probability for evolving a civilization on a habitable-zone planet is less than one in 10 billion trillion, then we are not the first.

To give some context for that figure: In previous discussions of the Drake equation, a probability for civilizations to form of one in 10 billion per planet was considered highly pessimistic. According to our finding, even if you grant that level of pessimism, a trillion civilizations still would have appeared over the course of cosmic history.

In other words, given what we now know about the number and orbital positions of the galaxy’s planets, the degree of pessimism required to doubt the existence, at some point in time, of an advanced extraterrestrial civilization borders on the irrational.

In science an important step forward can be finding a question that can be answered with the data at hand. Our paper did just this. As for the big question — whether any other civilizations currently exist — we may have to wait a long while for relevant data. But we should not underestimate how far we have come in a short time.

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