Main image: Reconstruction of the path of the asteroid that exploded over Chelyabinsk, Russia, on 15 February 2013. Image credit: Olga Kruglova & Sandia Labs CC BY-NC-ND 2.0
Given the scale of space, what's going to occur at just over a moon's length from Earth on Halloween has to be classed as a celestial near-miss. Headed our way – but predicted to miss Earth by about 500,000km – is 2015 TB145, a giant rock that's 28 times bigger than the Chelyabinsk meteor which hit Russia in February 2013. Its closeness has caused NASA to class TB145 as 'potentially hazardous'.
No warning
Forget movies like Deep Impact and Armageddon – when as asteroid even this big comes towards Earth, astronomers get little advance notice. NASA's Near-Earth Object Observation Program (NEOO) identified TB145 only a few weeks ago via the Panoramic Survey Telescope and Rapid Response System (Pan-STARRS-1) in Hawaii.
"It turns out that near-Earth asteroids fly-by the Earth with some regularity, many times with less advance notice than we have for 2015 TB145," says Dr. Nick Moskovitz, a planetary astronomer who researches, and searches for, near-Earth objects at Lowell Observatory in Arizona, USA. "For example, an object designated 2015 TC25 was discovered on October 11 about two days before it flew by the Earth at a distance of about 100,000 km, more than three times closer than TB145."
2015 TC25, however, was much smaller than TB145, and would likely have burned up in the atmosphere if it had been on a collision course with Earth.
How serious would it be if TB145 smashed into Earth?
"The energy from such an impact would be the equivalent of about 100 of the biggest nuclear weapons ever detonated," says Moskovitz. "This would definitely have significant regional effects on the scale of many hundreds or even thousands of miles."
The most famous asteroid impact so far occurred in Tunguska, a remote area of Siberia, in 1908. The impact is estimated to have been about 1,000 times more powerful than an atomic bomb, and the shockwave devastated over 800 square miles, felling 80 million trees.
Events like Tunguska and the Chelyabinsk meteor and rare purely because the chances of an asteroid striking land – let alone an urban area – are remote (Tunguska was so remote that its effects weren't photographed until the 1930s). However, a sizeable asteroid hitting the ocean could still be deadly. "An impact of this asteroid landing in the ocean, which would be most likely, could result in a significant tsunami," says Moskovitz.
Just how big is TB145?
This is a big asteroid, probably somewhere between 200-600 meters across according to Moskovitz, although he points out that we'll only know the size after observations conducted as it passes Earth at around 125,500km/h. That astronomers can measure the size of objects as big as TB145 only as they pass by may be alarming, but the chances of Earth being hit are actually very small.
"We don't get hit by objects in that size range very often, only about once every 10,000 years," says Moskovitz. "Space is big, there is a lot of stuff out there, and we would have to be extraordinarily unlucky to be hit by one of these objects."
Are we doing enough to find near-Earth objects?
NASA's Near Earth Object Observations Program (NEOO) says TB145 will be the biggest asteroid to sweep near Earth until August 2027, although it's only basing that on what it's picked up so far – an asteroid called 1999 AN10 – and there may well be other objects lurking out there.
There's a lack of funding for NEO detection systems, and most use small 1-2 metre telescopes to scan large portions of the sky over and over again. A next-gen system is badly needed, and that's exactly what the Large Synoptic Survey Telescope (LSST) promises. An 8.4-meter telescope with a 3,200-megapixel camera, from about 2023 the LSST will scan the sky for faint NEOs from its high-altitude location in Cerro Pachón, Chile.
At 3 x 1.65m and 2,800kg, the LSST's camera – now under construction – is about the same size as a car, and the largest even constructed. Able to photograph the night sky in six colours, from near ultraviolet to to near infrared, it will reach a stunning 3,200-megapixel (actually 3.2 gigapixels) resolution by using a mosaic of 189 16-megapixel silicon detectors arranged on 21 sections.
"The LSST project will certainly accelerate our discovery rate," says Moskovitz. "The good news is that we are getting very good at finding objects like TB145, so any impact hazard that these objects may pose is slowly being eliminated." Moskovitz thinks that within a couple of decades we will effectively know about all TB145-like objects in the vicinity, and won't have to worry about getting hit by one – and happily, the chances of us being hit in the meantime are small.
Privatising asteroid-hunting… and mining
NASA is also eyeing asteroids not as potential threats, but as possible stepping stones to deep space, with backing from private company Planetary Resources. Why is private money involved? Asteroids present a near-infinite supply of rare-Earth metals, that's why. Planetary Resources – whose investors include Richard Branson and Google's Larry Page and Eric Schmidt – want to use the ARKYD space telescope to identify near-Earth asteroids that could be commercially mined.
How to see 2015 TB145
Stargazers and amateur astronomers will get a treat this Halloween, but TB145 will be tricky to observe. "Amateurs with a small backyard telescope may be able to observe the object as it passes," says Moskovitz. Bigger and closer than most asteroid passes, TB145 will be unusually bright, and visible in the eastern night sky on 31 October – Halloween night – near the constellation of Orion. However, the Moon, which TB145 will pass just beyond, will be only just on the wane from full, so very bright – and you'll need a minimum 4-inch telescope to stand any chance of spotting the asteroid.
There's some great advice on aiming a telescope at TB145 here, and the event will also be covered live on the web here. Meanwhile, NASA will be mapping TB145 by bouncing radio waves off the asteroid, collecting radar echoes in radio telescopes at the Arecibo Observatory in Puerto Rico and the Green Bank Telescope in West Virginia.
from www.techradar.com
