Modern Australian
The Times

Our Solar System is filled with asteroids that are particularly hard to destroy, new study finds

  • Written by Fred Jourdan, Professor, Curtin University
Our Solar System is filled with asteroids that are particularly hard to destroy, new study finds

A vast amount of rocks and other material are hurtling around our Solar System as asteroids and comets. If one of these came towards us, could we successfully prevent the collision between an asteroid and Earth?

Well, maybe. But there appears to be one type of asteroid that might be particularly hard to destroy.

Asteroids are chunks of rocky debris in space, remnants of a more violent past in our Solar System. Studying them can reveal their physical properties, clues about the ancient history of the Solar System, and threats these space rocks may pose by impacting with Earth.

In our new study published today in the Proceedings of the National Academy of Sciences, we discovered that rubble pile asteroids are an extremely resistant type of asteroid and hard to destroy by collision.

Read more: An asteroid just buzzed past Earth, and we barely noticed in time

Two main types of asteroid

Mainly concentrated in the asteroid belt, asteroids can be classified into two main types.

Monoliths – made from one solid chunk of rock – are what people usually have in mind when they think about asteroids. Monolithic-type asteroids about a kilometre in diameter have been predicted to have a lifespan of only a few hundred millions of years in the asteroid belt. This is not long at all given the age of our Solar System.

3D illustration of an exploding rock with smaller rocks flung off it in several directions
Artist concept of catastrophic collisions between asteroids located in the belt between Mars and Jupiter. NASA/JPL-Caltech, CC BY

The other type are rubble pile asteroids. These are entirely made up of lots of fragments ejected during the complete or partial destruction of pre-existing monolithic asteroids.

However, we don’t really know the durability, and therefore the potential lifespan, of rubble pile asteroids.

Sneaky and abundant rubble piles

In September 2022, NASA’s DART mission (Double Asteroid Redirection Test) successfully impacted the asteroid Dimorphos. The goal of this mission was to test if we could deflect an asteroid by impacting it with a small spacecraft, and it was a resounding success.

Read more: NASA's asteroid deflection mission was more successful than expected. An expert explains how

Like other recent asteroid missions by the Japan Aerospace Exploration Agency (JAXA) to visit asteroids Itokawa and Ryugu, and by NASA to asteroid Bennu, close-up images have shown that Dimorphos is yet another rubble pile asteroid.

A greyscale rhomboid object with a dusty surface on a black background The much-studied Ryugu asteroid – classified as potentially hazardous – is also a rubble pile. JAXA/Hayabusa2, CC BY

Those missions showed us that rubble pile asteroids have a low density because they are porous. Also, they are abundant. In fact, they are very abundant, and since they are the shattered bits of monolithic asteroids, they are relatively small, and thus hard to spot from Earth.

Hence, such asteroids represent a major threat for Earth and we really need to understand them better.

Learning from asteroid dust

In 2010, the Hayabusa spacecraft designed by JAXA returned from the 535-metre long, peanut-shaped asteroid Itokawa. The probe brought with it more than a thousand particles of rocks, each one smaller than a grain of sand. Those were the first-ever samples brought back from an asteroid!

As it then turned out, the pictures taken by the Hayabusa spacecraft while it was still orbiting Itokawa demonstrated the existence of rubble pile asteroids for the first time.

Early results by the team at JAXA who analysed the returned samples showed Itokawa formed after the complete destruction of a parent asteroid which was at least 20 kilometres large.

In our new study, we analysed several dust particles returned from asteroid Itokawa using two techniques: the first one fires an electron beam at the particle and detects electrons that get scattered back. It tells us if a rock has been shocked by any meteor impact.

The second one is called argon-argon dating and uses a laser beam to measure how much radioactive decay happened in a crystal. It gives us the age of such a meteor impact.

Read more: Asteroid dust brought back to Earth may explain where our water came from with hydrogen clues

Giant space cushions that last forever

Our results established that the huge impact that destroyed Itokawa’s parent asteroid and formed Itokawa happened more than 4.2 billion years ago, which is almost as old as the Solar System itself.

That result was totally unexpected. It also means Itokawa has survived almost an order of magnitude longer than its monolith counterparts.

Such an astonishingly long survival time for an asteroid is attributed to its shock-absorbent nature. Due to being a rubble pile, Itokawa is around 40% porous. In other words, almost half of it is made of voids, so constant collisions will simply crush the gaps between the rocks, instead of breaking apart the rocks themselves.

So, Itokawa is like a giant space cushion.

This result indicates rubble pile asteroids are much more abundant in the asteroid belt than we once thought. Once they form, they appear to be very hard to destroy.

This information is critical to prevent any potential asteroid collision with Earth. While the DART mission was successful in nudging the orbit of the asteroid it targeted, the transfer of kinetic energy between a small spacecraft and a rubble pile asteroid is very small. This means they are naturally resistant to falling apart if impacted.

Therefore, if there was an imminent and unforeseen threat to Earth in the shape of an incoming asteroid, we’d want a more aggressive approach. For example, we may need to use the shockwave of a nuclear blast in space, since large explosions would be able to transfer much more kinetic energy to a naturally cushioned rubble pile asteroid, and thus nudge it away.

Should we actually test a nuclear shock wave approach, then? That is an entirely different question.

Read more: How satellites, radar and drones are tracking meteorites and aiding Earth's asteroid defence

Authors: Fred Jourdan, Professor, Curtin University

Read more https://theconversation.com/our-solar-system-is-filled-with-asteroids-that-are-particularly-hard-to-destroy-new-study-finds-197413

Chatswood Tutoring And Its Role In Academic Achievement

Academic success often requires more than classroom attendance alone. Students face increasing expectations as they progress through school, particu...

Why Laser Hair Removal Treatments Continue Growing In Popularity

Managing unwanted hair can become time-consuming and frustrating for many people, especially when shaving, waxing, and other temporary methods requi...

Choosing the Right Devices for a Flexible Workplace

For IT leaders managing large fleets, the device layer is where workforce productivity and security policy meet. The shift towards flexible and hybrid...

How Business Advisory Services Help Companies Achieve Sustainable Growth

Every business owner aims to build a profitable and sustainable organisation. While dedication, innovation, and hard work are important, achieving l...

Why Body Contouring Has Become A Popular Cosmetic Treatment

Many people maintain healthy lifestyles through regular exercise and balanced eating habits but still struggle with stubborn areas of fat that are d...

How to Choose the Right POS Hardware for Your Business in Australia

A lot of Australian business owners spend weeks researching POS software but buy hardware almost as an afterthought. That's a mistake. The wrong har...

Why Material Handling Hose Is Critical for Industrial Efficiency

A high-performance material handling hose is an essential component in industries that transport abrasive, dry, or bulk materials on a daily basis...

How to Choose the Right Lawyer in Melbourne for Your Situation

Choosing legal support can feel difficult, especially when the stakes are personal or business-related. The right lawyer in Melbourne should underst...

Hoteliers Look to Clever Value Adds to Increase Revenue

The Australian hospitality industry is still in recovery mode after a notoriously rough patch in recent years. While there has been a post-COVID tra...

Moving to Queensland? Here’s How to Prep Your Car for the Big Move North

There’s no sign of the northern migration slowing down, with thousands of southerners fleeing from chaotic lifestyles and cooler climates for a brig...

Diesel Shortage to Impact Trades and Contractors

Strait of Hormuz blockage affecting all major parts of trades and construction Trades and construction across residential, commercial and industria...

Why Holiday Home Owners Turn to Rental Management Agents

The Allure — and the Reality — of Renting Out Your Property Owning a holiday home is a dream for many Australians. Whether it's a beachside sha...

Why Finding Reliable Doctors In Bundoora Is Important For Long-Term Health

Access to quality healthcare plays an important role in maintaining overall wellbeing and managing health concerns early. Trusted Doctors in Bundoor...

Understanding the Different Types of Car Services: Minor vs Major

When it comes to car maintenance, one of the most important things every vehicle owner should understand is the difference between a minor and a maj...

How Superannuation and TPD Insurance Work Together

Superannuation is an essential part of financial planning in Australia. It is designed to provide individuals with income during retirement, helping...

Tiny Towns funding granted for Mt Hotham and Mt Buller upgrades

Alpine Resorts Victoria (ARV) has welcomed funding support from the Victorian Government’s  Tiny Towns Fund, with both Mt Hotham and Mt Buller se...

Locksmith Services: Why Professional Security Solutions Matter More Than Ever

Security is a critical concern for homeowners, businesses, and vehicle owners alike. Whether it involves protecting a property, replacing damaged lo...

Why Tooth Fillings Are Important For Protecting Damaged Teeth

Cavities and minor tooth damage are common dental problems that can worsen if left untreated. Professional tooth fillings help restore damaged teeth, ...