For years and decades now the concept of terraforming Mars has kept researchers and science experts on their feet scratching their heads to find a solution. This enthusiasm came from various fictional novels and movies that have given scientists hope that perhaps they can implement this idea. According to research, Mars has the potential to be humanity’s second home and they are trying to make this concept a reality.

If Mars is ever to be terraformed, it will be a monumental task. Terraforming Mars could take decades or even centuries in its initial stages. Additionally, we do not have the technological capacity to implement this initiative. This sobering realisation highlights the enormous obstacles that stand in our way of realising the aim of altering the Red Planet. NASA needs to reassess the grand dream of Terraforming Mars

The dream or vision of making Mars a planet that can give life to humanity is an interesting one. This concept has been part of scientific language and conversation for decades now and it promises not to just give humanity a different perspective, but, also to serve as plan B as the Earth is changing. Scientists have hypothesised that humanity may establish conditions conducive to human life on Mars by releasing greenhouse gases and altering Martian.

NASA has admitted to this impossible mission stating that It is not possible to terraform Mars with current technology. Mars’ thin atmosphere and deficiency in vital resources such as enough carbon dioxide that would be required to start a greenhouse effect and warm the planet are the main obstacles. The idea of converting Mars into an environment more like Earth is significantly more difficult than first thought due to the harsh reality of the planet’s current status.

Therefore, the issue is not entirely based on technology, but also based on the enormity of the resources needed. Less than 1% of Earth’s atmosphere is found on Mars, and the planet does not have a magnetic field to shield it from cosmic radiation. It is therefore a wise idea for scientists and researchers to discard this idea since reports state that it could take thousands of decades to implement this idea. Unless a new technology advances enough to take on this big idea. Obstacles on the journey to a habitable Mars: Scientific, material, and time

Mars does not have the nature or resources that are similar to Earth that can even give us hope. If it comprises less than 1% of what the Earth attributes, then it could be a waste of time, resources and investments. Due to the abundance of carbon dioxide in our atmosphere (earth), heat is retained and a rather stable climate is produced. Mars’s sparse atmosphere prevents the planet from efficiently retaining heat.

According to Bonsor (n.d.), NASA is reportedly developing a solar sail propulsion technology that would harness solar energy to power spaceships through the use of enormous reflective mirrors. Placing these massive mirrors a few hundred thousand kilometres away from Mars would be another way to use them: to heat the Martian surface by reflecting solar radiation.

NASA has found that, even in the event that all of Mars’ CO2 could be released, the atmospheric pressure required for human survival without a spacesuit would not be produced. The entire accessible carbon dioxide is insufficient to generate a habitable atmosphere, and transferring more gases from Earth or other celestial planets is currently beyond our technical capabilities.

The lack of a magnetic field on Mars presents another significant difficulty. The Earth’s magnetic field is essential for protecting the world from solar winds and dangerous cosmic radiation, which would otherwise remove our atmosphere. Mars has a thin atmosphere now because billions of years ago, the planet lost its magnetic field. It is just not possible to build an artificial magnetic shield using the technologies available today in order to terraform Mars.

The idea of terraforming may not be fully realised for several millennia, even though humans might visit Mars this century. It took the Earth billions of years to develop into a planet on which plants and animals could flourish. It is not an easy task to change the Martian landscape to resemble Earth. To create a livable environment and introduce life to the icy, arid planet of Mars, generations of human creativity and labour will be required (Bonsor, n.d).

  • We have robotics, VR, cell and wireless tech. We can fairly easily build a space station around Mars. Set up a VR lab in the station and Avatar robots down there. I really am suprised we are not pioneering this tech with our current space station. Wouldn’t it be cool to walk up to an Avatar bot controlled by someone on the ISS? That would be a great moment. Robots cheaper than humans and the systems required to keep them alive. They can also build.

    That just seems like a more expensive, less reliable, less useful mars rover. Also, humanoid robots are terrible and incredibly prone to failure. Walking is an extraordinarily difficult act that has few inherent advantages over wheels. Lastly, how does VR help here?

    • Evilphd666 [he/him, comrade/them]@hexbear.net
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      2 months ago

      I guess it doesn’t necessarily need to be humanoid. Or feet. We can develop these here and work out the kinks before Mars. Something to move around quicker than a caterpillar and can actually dig into the ground beyond a few inches, climb - do hills, build structures for humans before arrival.

      VR helps in real time looking around. We use this type of tech in flying drones to get a more immersive control. Real time video. Real time actions instead of having to plan everything out and wait a month for 10 ft of movement. The current rovers we have were concieved in the 70s and they tend to reinvent the wheel with every iterarion. Expensive? More features will cost some money up front, but you don’t need to build custom suits which are prone to ripping and tearig with a human inside and losing s crew member. So there is cost and risk savings there.

      The space station can be shielded from radiation. They will have less radiation than orbiting earth. Ion engines for logistics trains will cut times for resources to ship to the Mars stations. The logistics trains don’t need to interact with the atmospheres or lanching from ground. They can be recharged and refueld in space.

      We don’t need to be limited to slingshots. Only having to send up to low Mars / Earth orbit for samples will reduce mission costs.

      What is the benifet to humans here I suppose goes with the cost line. AI that isn’t used for genocide? More efficent costs of energy usage here at home? Standardized energy logistics to extend the life of other missions instesd of abandoning them? The ability to remotely upgrade and repair satelites. The ability to develop ion engines with reliable solar power outside the range of the sun for scalability. Improve the efficency and scalability of battery tech here on earth and eventually mining and tansporting the resources in space. By processing resources in space we don’t need to ruin our planet in getting them.

      Eventually taking the next step to become a Type 1 civilization and ending scarcity. picard-excited which I think is a far more noble goal and investment than blowing each other up.