Road to Mars

ROAD TO MARS

The beginning of
a metaverse
journey

The journey to Mars commences in one of Everdome's international spaceports, involving several specially designed vehicles created to make all stages of your journey safe, comfortable, rewarding and totally unique.

DEPARTURE EXPERIENCE FOOTAGE

The journey commences in Hatta Spaceport

Located in the mountainous Hatta Region of the United Arab Emirates. It is just one of hundreds of international spaceports distributed worldwide, belonging to the governments, corporations and international bodies of the near future.

Passengers and spectators alike arrive in autonomous, multipurpose vehicles or via the Everdome Hyperloop train system. From the Launch Viewing Area, spectators can watch the Everdome Spaceship begin its flight to Mars.

The Hatta Spaceport complex includes the Mission Control Center, perched on top of a mountain peak, as well as infrastructure complexes surrounding both the mountain and its nearby lake.

Inside the Spaceport, all visitors can first explore the attractions of the Everdome metaverse

SPACE PIONEERS HALL

Space inspired NFT art galleries

Departure Hall

The journey to Mars takes between 95 and 120 days.

Departure Schedulues

All departures are scheduled when Earth and Mars are optimally aligned.

Constant Calculations

Engineers constantly calculate the spacecraft’s location and command thrusters to fire for a specific to tweak the path.

Trajectory Corrections

After ten days trajectory is corrected, ensuring arrival at the top of the Martian atmosphere pre-landing.

Final Preparations

The final 5 days leading up to the landing make up the approach phase, preparing for entry, descent and landing.

MISSION ARCHITECTURE EXPLAINED

The journey to Mars involves several vehicles, each designed to make the journey as safe, comfortable and rewarding as possible

EVR Phoenix Spaceship is a massive reusable passenger craft

The spaceship is almost 200 meters tall, designed to take over 450 passengers and crew in a single flight. Sitting astride massive rocket boosters, the spaceship is almost double the size of SpaceX’s Starship and its Big Falcon Rocket.

At the Everdome Hatta Spaceport, a significant portion of the rocket boosters remain hidden in underwater silows below the lake surface. This innovative design, conceived purely for practical purposes, also proved gratifyingly photogenic within the beautiful mountain lake setting.

On Earth, where the force of gravity is significant, Everdome’s spaceships take-off in a vertical position. Other celestial bodies permit different launch configurations. In the absence of a substantial atmosphere, landing the spaceship requires a series of complex braking manoeuvres. On Earth, the spaceships land the way any aeroplane would.

200 meters tall

It sits on top of massive rocket boosters that make the spaceship almost double the size of SpaceX’s Starship and its Big Falcon Rocket.

450 passengers

Designed to take over 450 passengers and crew in one flight.

Rocket boosters

At the Everdome Hatta Spaceport, a significant part of the rocket boosters are located in underwater silos, below the lake surface.

700 km

At 700km above the Earth's surface, the spaceships rendezvous with the Everdome Cycler, an interplanetary transit vehicle.

The Everdome Cycler is almost 3 kilometres
long

The Everdome Cycler can carry up to forty spaceships, giving it a passenger manifest of around 9000. Travellers spend the majority of their time in the passenger rings of the Cycler itself, enjoying leisure, entertainment and educational opportunities in environments preparing them for the new conditions on Mars.

The centrifugal forces on the rings are adapted according to the direction and stage of travel. Passengers can acclimatise to Mars gravity en route to Mars, and to Earth gravity on their return trip.

The Everdome Cycler approaches Mars on a trajectory allowing deployment of its full compliment of Everdome spaceships in a single slingshot manoeuvre. Leaving the Cycler and landing on Mars takes around seven minutes for each spaceship.