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  • Written by Valerie Payré, Assistant Professor of Earth and Environmental Sciences, University of Iowa
NASA's robotic prospectors are helping scientists understand what asteroids are made of – setting the stage for miners to follow someday

The cars, cellphones, computers and televisions that people in the U.S. use every day require metals like copper, cobalt and platinum to build. Demand from the electronics industry for these metals is only rising, and companies are constantly searching for new places on Earth to mine them.

Scientists estimate that lots of these metals exist thousands of miles beneath Earth’s surface, in its molten core, but that’s far too deep and hot to mine[1]. Instead, some companies hope to one day search for deposits that are literally out of this world — on asteroids.

The commercialization of asteroid mining is still a ways off, but in October 2023, NASA launched a scientific mission to explore the metal-rich asteroid Psyche[2]. The main goal of the mission[3] is studying the composition and structure of this asteroid, which could tell scientists more about Earth’s core since the two objects might have a similar makeup.

Both likely contain platinum, nickel, iron and possibly even gold – materials of commercial interest.

Experts need to know what’s out there on asteroids before considering whether they’re worth mining. NASA’s Psyche mission could answer some of these questions.

I am a planetary geologist[4] whose work explores other planets and astronomical objects like Mars, Venus and the Moon. I will be following the Psyche mission closely, as this is the first time that scientists will be able to learn about the composition and structure of a possible piece of a planetary core similar to the Earth’s[5], without indirect seismic or magnetic measurements, or replicating the pressure and temperature conditions of the Earth’s core in our labs.

With the spacecraft estimated to arrive at the asteroid’s orbit in 2029, the findings from the Psyche mission will provide unique insights into the type of metals present on the asteroid’s surface, as well as their amount, and the minerals containing these metals. This data is essential both for scientists like me exploring the formation and evolution planetary bodies, as well as for companies investigating the possibility of asteroid mining.

Asteroid formation

Asteroids come in a variety of sizes[6]. Some are the size of a town, while others are the size of a state. Most asteroids are made of rocks and represent the leftovers from the early formation of our solar system[7] around 4.6 billion years ago.

An artist's illustration of a gray asteroid with some yellow-ish surfaces, and two large circular craters.
The Psyche asteroid. NASA/JPL-Caltech/ASU[8]

Not every asteroid is the same – some, like Bennu, the target of NASA’s OSIRIS-REx mission[9], are rich in carbon. These are very old, and they will teach scientists more about how planets formed and how life may have begun on Earth.

Others, like Psyche[10], are made of metals and potentially result from one or more collisions between astronomical objects when the solar system was forming. These collisions left debris flying through space — including potential pieces of a planet’s metal-rich core. A NASA spacecraft will orbit and analyze the surface of Psyche.

Mining in space

Not every mineral deposit on Earth is mineable. Companies first look for deposits with a high level of metal purity[11]. They also investigate how affordable and feasible extracting the metal would be before choosing where to mine.

A bird's eye view of a gray rock, with a red crane on it. Before mining, companies think about whether a deposit will yield enough metal. The same principle applies to asteroid mining. Abstract Aerial Art/DigitalVision via Getty Images[12]

Similarly, before mining an asteroid, companies will have to think about all those factors, and they’ll have to come up with the infrastructure needed to mine at a distance and transport the metals they mine hundreds of millions of miles back to Earth. The technology to do that is still years away, and transporting metals would require major funding.

A few companies[13] around the world have already started to think about what the best and lowest cost approach would be, drawing from processes similar to those used on Earth.

The first step would be finding a mineable metal deposit[14]. Next, they’d drill and extract the metals on the asteroid[15]. One of the most important differences with Earth mines is that each step would be undertaken remotely with spacecrafts orbiting around the asteroid and robots landing on its surface. Then, a spacecraft would send the resulting materials back to Earth.

Asteroid mining plans are still at their earliest stages. A few companies like Planetary Resources[16] and Deep Space Industries[17], with goals to extract metals from space, were acquired by other companies.

Experts can’t quite tell yet how acquiring valuable metals from asteroids would affect the global economy, but these metals could potentially flood the market and lower their values[18].

The Psyche mission is a huge step in figuring out what sort of metals are out there, and it may also answer questions about the composition and properties of Earth’s core.


  1. ^ too deep and hot to mine (
  2. ^ metal-rich asteroid Psyche (
  3. ^ main goal of the mission (
  4. ^ I am a planetary geologist (
  5. ^ a possible piece of a planetary core similar to the Earth’s (
  6. ^ variety of sizes (
  7. ^ formation of our solar system (
  8. ^ NASA/JPL-Caltech/ASU (
  9. ^ NASA’s OSIRIS-REx mission (
  10. ^ Others, like Psyche (
  11. ^ high level of metal purity (
  12. ^ Abstract Aerial Art/DigitalVision via Getty Images (
  13. ^ few companies (
  14. ^ finding a mineable metal deposit (
  15. ^ extract the metals on the asteroid (
  16. ^ Planetary Resources (
  17. ^ Deep Space Industries (
  18. ^ lower their values (

Authors: Valerie Payré, Assistant Professor of Earth and Environmental Sciences, University of Iowa

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