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Want to go to space? It could cost you.

This month, the SpaceX Crew Dragon spacecraft will make the to the International Space Station. The going price for a seat is US$55 million. The ticket comes with an eight-day stay on the space station, including room and board 鈥 and .

Virgin Galactic and Blue Origin offer cheaper alternatives, which will fly you for a mere . But the flights only last between and , barely enough time to enjoy an in-flight snack.

But if you鈥檙e happy to keep your feet on the ground, things start to look more affordable. Over the past 20 years, advances in tiny satellite technology have brought Earth orbit within reach for small countries, private companies, university researchers, and even do-it-yourself hobbyists.

Science in space

We are scientists who study our planet and the universe beyond. Our research stretches to space in search of answers to fundamental questions about how our ocean is changing in a warming world, or to study the supermassive black holes beating in the hearts of distant galaxies.

The cost of all that research can be, well, astronomical. The , which launched in December 2021 and will search for the earliest stars and galaxies in the universe, had a final price tag of US$10 billion after .

The price tag for the International Space Station, which has hosted almost over 20 years, ran to US$150 billion, with another US$4 billion each year to keep the lights on.

Even weather satellites, which form the backbone of our space-based observing infrastructure and provide essential measurements for weather forecasting and natural disaster monitoring, cost up to US$400 million each .

Budgets like these are only available to governments and national space agencies 鈥 or a very select club of .

Space for everyone

More affordable options are now democratising access to space. So-called , with a payload of less than 10kg including fuel, can be launched individually or in 鈥渟warms鈥.

Since 1998, more than have been launched and are beaming back data used for disaster response, maritime traffic, crop monitoring, educational applications and more.

A key innovation in the small satellite revolution is the standardisation of their shape and size, so they can be launched in large numbers on a single rocket.

are a widely used format, 10cm along each side, which can be built with commercial off-the-shelf electronic components. They were developed in 1999 by two professors in California, Jordi Puig-Suari and Bob Twiggs, who wanted graduate students to get experience designing, building and operating their own spacecraft.

Twiggs says the shape and size were by Beanie Babies, a kind of collectable stuffed toy that came in a 10cm cubic display case.

Commercial launch providers like in California and in New Zealand offer 鈥渞ideshare鈥 missions to across dozens of small satellites. You can now build, test, launch and receive data from your own CubeSat for .

The universe in the palm of your hand

Small satellites have opened exciting new ways to explore our planet and beyond.

One project we are involved in uses CubeSats and machine learning techniques to monitor Antarctic sea ice from space. Sea ice is a crucial component of the climate system and improved measurements will help us better understand the impact of climate change in Antarctica.

Spire Global operates a fleet of more than 110 nanosatellites. Spire Global

Sponsored by the , the project is a collaboration between universities and Antarctic research institutes in both countries and a UK-based satellite company called . Naturally, we called the project IceCube.

Small satellites are starting to explore beyond our planet, too. In 2018, accompanied the NASA Insight mission to Mars to provide real-time communication with the lander during its decent. In May 2022, Rocket Lab will launch as a precursor to NASA鈥檚 Artemis program, which aims to land the first woman and first person of colour on the Moon by 2024.

A nanosatellite took this photo of Mars.

Tiny spacecraft have even been proposed for a voyage to another star. The project wants to launch a fleet of 1,000 spacecraft each centimetres in size to the Alpha Centauri star system, 4.37 light-years away. Propelled by ground-based lasers, the spacecraft would 鈥渟ail鈥 across interstellar space for 20 or 30 years and beam back images of the Earth-like exoplanet .

Small but mighty

With advances in miniaturisation, satellites are getting ever smaller.

For a few hundred dollars you can build and launch a tiny working satellite.

鈥淧icosatellites鈥, the size of a can of soft drink, and 鈥渇emtosatellites鈥, no bigger than a computer chip, are putting space within reach of keen amateurs. Some can be assembled and launched for .

A Finnish company is experimenting with a more sustainably built CubeSat . And new, smart satellites, carrying computer chips capable of artificial intelligence, can decide what information to beam back to Earth instead of sending everything, which dramatically reduces the cost of phoning home.

Getting to space doesn鈥檛 have to cost the Earth after all.


Shane Keating and Clare Kenyon will be discussing CubeSats and the Space Bridge program at , an in-person and online event at Scienceworks in Melbourne on Sunday March 27, 12pm-1pm.

The Conversation

, Senior Lecturer in Mathematics and Oceanography, and , Astrophysicist and Science Communicator,

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