Martian House in England Explores Life on Red Planet

The underground level below the inflatable part makes use of lava tubes that occur in the crust of Mars. (Reuters)
The underground level below the inflatable part makes use of lava tubes that occur in the crust of Mars. (Reuters)
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Martian House in England Explores Life on Red Planet

The underground level below the inflatable part makes use of lava tubes that occur in the crust of Mars. (Reuters)
The underground level below the inflatable part makes use of lava tubes that occur in the crust of Mars. (Reuters)

“How do you think we should live on Mars?” That’s the question that was recently posed to more than 200 people in England.

The answer has just landed in a public square in Bristol, UK—and it’s a two-story, solar-powered dwelling with a kitchenette, a hydroponic garden, and a “Martian toilet.”

Dubbed the Martian House, the structure will open to the public next week and host a series of talks and workshops about sustainable living.

Unlike the flurry of farfetched renderings of Mars colonies populating the internet, the Martian House is a tangible object that’s designed to get people to think less about actually colonizing space and more about living with scarce resources, and within your means in a constrained environment.

The Martian House was conceived of by artists Ella Good and Nicki Kent, who wanted to use Mars as a lens to focus on what we really need and how we want to live on Earth.

It was designed by two British architecture and design firms: Pearce+ and Hugh Broughton Architects, which has designed a number of science research stations in Antarctica. The architects consulted with space scientists about the climate conditions on Mars and how those should translate into their design.

Naturally, plants hold a special place on the second floor of the Martian House. Together with a kitchenette, the “hydroponic living room” is contained within a pressurized, double-skin inflatable structure lined with gold foil. This comes with a window and a skylight, and the gold coating is meant to reflect the sun and reduce heat gain on the surface.

On Mars, the walls within would be filled with Martian regolith, a silt-like volcanic rock that’s readily available on the planet. The Bristol version, however, is filled with air.

Meanwhile, the ground floor houses compact bedroom pods and a Duravit toilet with a heated seat, illuminated bowl, and an odor extraction mechanism because you can’t just open the window on a planet with so little oxygen.

On Mars, this half of the house would be built underground, within Mars’s empty lava tubes. In Bristol, it sits in a boarded-up shipping container.

The Martian House was designed to withstand the red planet’s harsh climate (an average temperature of -80 degrees and high cosmic radiation), but this isn’t meant to be a NASA-proof house for Mars.



NASA's Parker Solar Probe Aims to Fly Closer to the Sun Like Never Before

The sun sets in Santiago, Chile, Friday, Dec. 20, 2024, as a forest fires burns on the outskirts of the capital. (AP Photo/Esteban Felix)
The sun sets in Santiago, Chile, Friday, Dec. 20, 2024, as a forest fires burns on the outskirts of the capital. (AP Photo/Esteban Felix)
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NASA's Parker Solar Probe Aims to Fly Closer to the Sun Like Never Before

The sun sets in Santiago, Chile, Friday, Dec. 20, 2024, as a forest fires burns on the outskirts of the capital. (AP Photo/Esteban Felix)
The sun sets in Santiago, Chile, Friday, Dec. 20, 2024, as a forest fires burns on the outskirts of the capital. (AP Photo/Esteban Felix)

A NASA spacecraft aims to fly closer to the sun than any object sent before.
The Parker Solar Probe was launched in 2018 to get a close-up look at the sun. Since then, it has flown straight through the sun's corona: the outer atmosphere visible during a total solar eclipse.

The next milestone: closest approach to the sun. Plans call for Parker on Tuesday to hurtle through the sizzling solar atmosphere and pass within a record-breaking 3.8 million miles (6 million kilometers) of the sun's surface, The Associated Press reported.
At that moment, if the sun and Earth were at opposite ends of a football field, Parker "would be on the 4-yard line,” said NASA's Joe Westlake.
Mission managers won't know how Parker fared until days after the flyby since the spacecraft will be out of communication range.

Parker planned to get more than seven times closer to the sun than previous spacecraft, hitting 430,000 mph (690,000 kph) at closest approach. It's the fastest spacecraft ever built and is outfitted with a heat shield that can withstand scorching temperatures up to 2,500 degrees Fahrenheit (1,371 degrees Celsius).

It'll continue circling the sun at this distance until at least September.

Scientists hope to better understand why the corona is hundreds of times hotter than the sun’s surface and what drives the solar wind, the supersonic stream of charged particles constantly blasting away from the sun.

The sun's warming rays make life possible on Earth. But severe solar storms can temporarily scramble radio communications and disrupt power.
The sun is currently at the maximum phase of its 11-year cycle, triggering colorful auroras in unexpected places.

“It both is our closest, friendliest neighbor,” Westlake said, “but also at times is a little angry.”