Elon Musk finally revealed the Artificial Gravity Starship 2022 , For the first time in the history of humanity we have a good chance of walking on the surface of Mars and that is thanks to the stubborn ambition of Elon Musk. The billionaire is building Starship, a powerful spacecraft that will take volunteers across the vast distance between Earth and Mars, however, since the journey would take months in deep space, Musk’s company SpaceX was asked to protect the passengers. Gotta find a way.
This is why SpaceX came up with the artificial gravity Starship! Join us to find out what this spacecraft is and how it works. Even if you think trying to go to Mars is silly or not going to work, join us to find out SpaceX’s insane artificial gravity starship.
Musk is moving forward with his plan to get people from Earth to live on Mars permanently. That’s why he’s building the Starship, the space rocket that promises to be the most powerful ever! It will be configurable to carry man or cargo. Starship is unique in many ways. It is capable of lifting over 100 tonnes into orbit, which is necessary considering that a lot of tonnes of cargo have to be carried over the colonists.
It would have systems that would keep them alive. Remember, Mars is a very harsh environment and special provisions have to be made for it. Musk has to supply the machinery and everything to make the material rocket fuel to build the water food shelter! SpaceX designed the Starship with an upper and lower stage at the point of separation. The lower stage or super heavy booster would return to Earth while the ship would proceed to Mars after refueling in orbit.
To save cost, both stages of the Starship are fully reusable. The booster returns to the ground and is quickly checked out and ready for the next flight. It will rely on around 30 Raptor engines for propulsion. The Raptor engine is designed and developed by SpaceX. The upper stage will also re-enter Earth after each mission, with heat-resistant tiles protecting it from being damaged by the heat produced.
SpaceX plans to build about a thousand of these Starships and launch at least three per day. Of course, Starship isn’t for traveling to Mars alone. NASA plans to use Starship in its next mission to the Moon. The spacecraft will drop the astronauts on the surface of the Moon and return them to orbit after completing their mission.
As a cargo carrier, Starship is relatively simple to design. When starships are meant to carry people, some complications start to appear. For short trips like the Moon, SpaceX won’t have to worry as it will last for several days. However, it takes months to reach Mars from Earth and passengers are exposed to harmful radiation in the harsh environment the starship has to pass through.
Of course this particular problem can be fixed by putting a shield on the starship but another problem that is not easily solved is gravity. It’s an issue that affects astronauts who aren’t going to Mars because they have to keep a strict regimen of exercise while aboard the International Space Station. This also isn’t always enough, as returning astronauts sometimes have to be ejected from their spacecraft when they return from months-long missions.
You must have seen films with plot based on space travel. Most of the times, you see a giant spaceship where the actors live or even fight and shoot at each other. However, most of the time, the script remains silent about the gravity in the spacecraft. Whatever struggle the passengers have to do to reach their destination, they survive and leave. Musk wants that luxury but not movies.
It’s not like that outside the real world. Sorry she has to create some gravity on a starship. To fully understand the scale of SpaceX’s problem when it comes to microgravity, here’s the effect of microgravity on the human body, as described in NASA’s In microgravity, bone loss occurs at a rate of 1 to 1.5 percent per month, explained Nitja Sintran, head of the Office of Space Medicine and Health Care Systems.
Accelerates age-related changes similar to osteoporosis. The reduction in bone density and strength is more pronounced in some skeletal regions, such as the pelvis, although most of the loss is reversible upon return to Earth. 4:16 Prolonged exposure to weightlessness also increases the risk of kidney stones and bone fractures, both of which are associated with bone demineralization.