Or Graur Associate Professor of Astrophysics, writes for The Conversation UK about a mission to visit an asteroid called Apophis.
The European Space Agency has given the go-ahead for initial work on a mission to called (99942) Apophis. If approved at a key meeting next year, the robotic spacecraft, known as the Rapid Apophis Mission for Space Safety (Ramses), will rendezvous with the asteroid in February 2029.
Apophis is 340 metres wide, about the same as the height of the Empire State Building. If it were to hit Earth, it would cause hundreds of miles from its impact site. The energy released would equal that from tens or hundreds of nuclear weapons, depending on the yield of the device.
Luckily, Apophis won鈥檛 hit Earth in 2029. Instead, it will pass by Earth safely at a distance of 19,794 miles (31,860 kilometres), about one-twelfth the distance from the Earth to the Moon. Nevertheless, this is a very close pass by such a big object, and Apophis will be visible with the naked eye.
Nasa and the European Space Agency have seized this rare opportunity to send separate robotic spacecraft to rendezvous with Apophis and learn more about it. Their missions could help inform efforts to deflect an asteroid that threatens Earth, should we need to in future.
The threat from asteroids
Some 66 million years ago, an asteroid the size of a small city hit Earth. The impact of this asteroid brought about a global extinction event that wiped out the dinosaurs.
Earth is in constant danger of being hit by , leftover debris from the formation of the Solar System 4.5 billion years ago. Located in the asteroid belt between Mars and Jupiter, asteroids come in many shapes and sizes. Most are small, only 10 metres across, but the largest are hundreds of kilometres across, larger than the asteroid that killed the dinosaurs.
The asteroid belt contains 1-2 million asteroids larger than a kilometre across and millions of smaller bodies. These space rocks feel each other鈥檚 gravitational pull, as well as the gravitational tug of Jupiter on one side and the inner planets on the other.
Because of this gravitational tug-of-war, every once in a while an asteroid is thrown out of its orbit and hurtles towards the inner Solar System. There are 35,000 such (Neos). Of these, 2,300 (PHOs) have orbits that intersect Earth鈥檚 and are large enough that they pose a real threat to our survival.
Do not go gentle into that good night
During the 20th century, astronomers set up several surveys, such as , in order to detect and study hazardous asteroids. But detection is not enough; we have to find a way to defend Earth against an incoming asteroid.
Blowing up an asteroid, as depicted in the movie Armageddon, is no use. The asteroid would be broken into smaller fragments, which would keep moving in much the same direction. Instead of being hit by one large asteroid, Earth would be hit by a swarm of smaller objects.
The preferred solution is to deflect the incoming asteroid away from Earth so that it passes by harmlessly. To do so, we would need to apply an external force to the asteroid to nudge it away. A popular idea is to fire a projectile at the asteroid. , when a spacecraft called Dart collided with an asteroid. Before we do this out of necessity, we have to understand how different types of asteroids would react to such an impact.
Apophis, Ramses and Osiris-Apex
was discovered in 2004. The asteroid passed by Earth on December 21 2004 at a distance of 14 million kilometres. It returned in 2021, and will swing by Earth again in 2029, 2036 and 2068.
Until recently, there was a small chance that Apophis could collide with Earth in 2068. However, during Apophis鈥 approach in 2021, astronomers used radar observations to refine their knowledge of the asteroid鈥檚 orbit. These showed that Apophis would not hit our planet .
The Ramses mission will rendezvous with Apophis in February 2029, two months before its closest approach to Earth on Friday April 13. It will then accompany the asteroid as it approaches Earth. The goal is to learn how Apophis鈥檚 orbit, rotation and shape will change as it passes so close to Earth鈥檚 gravitational field.
In 2016, Nasa launched the 鈥淥rigins, Spectral Interpretation, Resource Identification, and Security - Regolith Explorer鈥 () mission to study the near-Earth asteroid . It intercepted Bennu in 2020 to collect samples of rock and soil from its surface. It dispatched the rocks in a capsule, which arrived on Earth in 2023.
The spacecraft is still out there, so Nasa renamed it the 鈥淥rigins, Spectral Interpretation, Resource Identification and Security 鈥 Apophis Explorer鈥 () and assigned it to study Apophis. Osiris-Apex will reach the asteroid just after its 2029 close encounter. It will then fly low over Apophis鈥檚 surface and fire its engines, disturbing the rocks and dust that cover the asteroid to reveal the layer underneath.
A close flyby of an asteroid as large as Apophis happens only once every 5,000 to 10,000 years. Apophis鈥檚 arrival in 2029 presents a rare opportunity to study such an asteroid up close, and seeing how it is affected by Earth鈥檚 gravitational pull. The information gleaned will shape the way we choose to protect Earth in the future from a real killer asteroid.
Ancient Egyptian mythology
When Ramses and Osiris-Apex meet up with Apophis in 2029 they will inadvertently reenact a core component of ancient Egyptian cosmology. To the ancient Egyptians, the Sun was personified by several powerful gods, chief among them . The Sun鈥檚 setting in the evening was interpreted as Re dying and entering the netherworld.
During his nighttime journey through the netherworld, Re was menaced by the great snake , who embodied the powers of darkness and dissolution. Only after Apophis had been defeated could Re be revitalised by Osiris, the king of the netherworld. Re could then once again be reborn in the east, rising in the sky once more.
Though the asteroid Apophis poses no danger in the near future, Ramses (named after the pharaohs of the same name, which meant 鈥渂orn of Re鈥) and Osiris-Apex will study it so that one day we will know how to defeat it 鈥 or any of its distant brethren.
This article is republished from under a Creative Commons license. Read the .