can moon be our new home essay in english

Essay On Moon

500 words essay on moon.

The moon is the satellite of the earth that moves around the earth. We see it shining it a night by the light which the sun reflects on it. The moon is a beautiful satellite that everyone admires for its beauty. Moreover, the bright moonlight is soothing for all of us. It makes the earthly objects shine like silver in the moonlight. Thus, an essay on moon will help us learn more about its enchanting beauty.

All about the Moon

While people find the moon to be very beautiful, it is not as beautiful as it appears to be. It is devoid of plants and animals and is not a suitable place for plants or animals. Thus, we do not see any form of life on the moon.

Similarly, human beings won’t be able to live on the moon. Like how our earth has an atmosphere, the moon does not. Thus, the lunar days are quite hot and the lunar nights are very intense.

Similarly, while it may look beautiful from the earth, it does have a forbidding appearance. In other words, the moon is full of rocks and craters. In fact, even if you look at the moon from your naked eye, you can see some dark spots on it.

They are dangerous rocks and craters. In addition, the gravitational pull of the moon is less than that of the planet earth. As a result, it will difficult to walk on the surface of the moon.

The moon has different phases as it moves along its orbit around the earth. Basically, half of the moon is always in sunlight so half the earth has day while the other half has night. Meaning to say, the phases of the moon depends on how much of the sunlit half we can see at any one time.

Journey to the moon

Ever since the beginning, man has been fascinated by the moon. We have looked at it with wonder and it shows in the earlier works of poets and scientists. To reveal the mystery of the moon, scientists tried to study it.

Thus, a lot of attempts were made to send humans to the moon. On July 21, 1969, two Americans Neil Armstrong and Edwin Aldrin made it to the moon. They got to walk on the surface of the moon and collect lunar rocks.

After that, they had a safe journey back to earth. A lot of American scientists have sent their men to the moon multiple times now. Thus, man has conquered the moon and it is not a mystery anymore.

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Conclusion of the Essay on Moon

To sum it up, the moon shines bright at night when the sun is not on duty. It sheds its silver light which is very cool and refreshing. Moreover, the moonlit nights also impact our mind and body via a soothing effect.

FAQ of Essay on Moon

Question 1: What is the importance of the moon?

Answer 1: Moon is the brightest and largest object in our night sky, which makes the Earth a more livable planet by moderating our home planet’s wobble on its axis. This in turn leads to a relatively stable climate. Moreover, it also causes tides, which creates a rhythm that has guided humans for thousands of years.

Question 2: How was the moon created?

Answer 2: The moon was formed 4.5 billion years ago. It was around 30 to 50 million years after the origin of the Solar System, out of debris thrown into orbit via a massive collision. This collision was between a smaller proto-Earth and another planetoid which was about the size of Mars. In our solar system, almost all moons spin at the same rate as they orbit.

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The Importance of the Moon Essay

The moon has been the subject of wonder, story, rhyme, and song since the beginning of mankind. People’s fascination with the moon has extended to fairy tales and myths, religious ceremonies, hunting and farming rituals, boating routines and romance. The moon has been a fundamental element of human culture which is understandable given that if the moon did not exist, neither would humans. In the context of the history of man only relatively recently has humans reached the moon and discovered how it was likely formed and what it consists of. The moon allows and sustains life on Earth, affects its tides daily and though not a mystery to the same degree as it had been throughout all of history, it continues to inspire the imagination and much remains to be learned of Earth’s closest celestial neighbor.

Precisely how the moon was formed has been a long-standing mystery and still remains just a theory. However, for the past quarter-century, the majority of scientists have agreed upon a likely scenario. According to the general consensus opinion, about four and a half billion years ago, a planet or asteroid about the circumference of Mars collided with the Earth, striking it indirectly. The impact sent the Earth spinning and the part of the Earth’s crust that was disengaged from the impact began circling the Earth much in the same way Saturn’s rings revolve around that planet. This material now caught in Earth’s gravitational pull was made up of both the upper layer of the Earth and the object that struck it. Eventually, this material coalesced into one large mass, the moon (Heiken et al, 1991). This is a viable theory but not the only one. Some scientists theorize that the moon was created by an indefinite means far from Earth then became trapped in a gravitational orbit around the Earth when it passed close by. Still, most scientists suggest the ‘impact theory’ as being the most probable. Though such a cosmic event was common in the early stages of the solar system, it is very improbable in its present stage of development.

Every day on Earth, two high and two low tides occur. Oceans are in constant motion, alternating from high to low tide then back again with approximately 12-hour intervals between high tides. The moon’s gravitational pull causes the oceans to ‘bulge out’ towards the current location of the moon and the opposite side of the earth as well. Because the Earth is pulled in the direction of the moon, water on both sides of the Earth is affected. On the near side of the moon, the water itself is pulled and on the other side, the Earth is being pulled away from the water. As the Earth, Moon, and Sun interact in this gravitational dance, ocean levels ebb and flow. “As the moon travels around the Earth and as they, together, travel around the Sun, the combined gravitational forces cause the world’s oceans to rise and fall. Since the Earth is rotating while this is happening, two tides occur each day” (Cooley, 2002).

Life on Earth first inhabited the seas. Many species such as crustaceans, seaweeds, fish, and worms were abandoned to the shores as the rising tides receded. While most did not survive the harsh, forbidding alien land, some managed to adapt to their temporary existence on land during low tide and over millions of years of evolution, fewer still were able to adapt to living exclusively on the shore rather than the sea. “Species adapted to the temporary endurance of dry land developed, and the continuing pressure of competitors saw to it that there was survival value to be gained in developing the capacity to withstand dry-land conditions for longer and ever-longer periods” (Bauman, 2006). Without the moon’s influence on Earth’s tides, this evolutionary adaptation likely would not have occurred because there would have been no reason for life to emerge from the seas.

The moon has not only influenced the culture of mankind, it is likely responsible for the very existence of humans in the first place. The subject of stories, myths and wonderment, the moon has directed the course of humans from the earliest beginnings. It is much more just a large light in the night sky that inspires romantic moonlit walks along the beach. It is the giver of life to no less a degree than the Sun or the Earth itself.

Bauman, Deron. (2006). “The Importance of the Moon.” Web.

Cooley, Keith. (2002). “Moon Tides.” Web.

Heiken, G.; Vaniman, D.; French, B. (Eds.). (1991). Lunar Sourcebook: A User’s Guide to the Moon . New York: Cambridge University Press.

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Making a Home on the Moon

A future home on the Moon has to have a lot more than a place to eat and sleep. It will be the only structure on the Moon, it will have to provide shelter, power, and a place to work and live. But where should it be located and how will it be built? Find out more in this set of 6 animations from Airbus Foundation Discovery Space.

What is the best place to live on the Moon?

An entirely new landscape awaits when you land on the Moon. Will you choose one of the poles or dig underground – where will your Moon village be?

Building your own Moon home

The first Moon structure has a lot of roles to fill: a home base not only for sleeping and eating but for research and experiments, too.

What materials to build your home on the Moon?

When you think of building, you probably think of bricks – but Moon rock is an entirely different material. So what’s the best way to build on the Moon?

Powering the Moon

A lunar day lasts for 14 Earth days, but night can be just as long. Is solar energy our best bet for powering the Moon base? And how do we make it last?

Meteors on the Moon. Sunny with a chance of meteor shower

About 180 craters appear on the Moon every year, not to mention being hit by golf ball-sized meteors all year long. How do we stay protected?

Radiation on the Moon. How much sunscreen do you need on the Moon?

Just one year on the Moon maxes out the amount of solar radiation we can handle over a lifetime. What’s the best sunscreen for Moon life?

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Astronomy and space

How could we live on the Moon?

There are many reasons to build a permanent base on the Moon. The Moon offers a perfect foundation for telescopes to look deeper into the Universe.

It’s an ideal launchpad for missions to Mars and other worlds. And, for some people, it’s the ultimate tourist destination. But where would we live and how could we survive the Moon’s hostile environment? 

Moon fact: Apollo 17 astronauts Eugene Cernan and Harrison Schmitt hold the record for the longest time on the Moon – 75 hours.

Will we ever live on the Moon?

When Apollo 17 returned from the Moon in 1972, few people would have imagined that we would still be waiting for another human to set foot on our cosmic companion nearly 50 years later. In fact, most people at the time thought that by now we would have a human settlement on the Moon. But that dream has stalled.

Why it’s one thing getting to the Moon… but it’s quite another living there

Sending humans to the Moon comes with huge costs, risks and technological challenges. This is why space agencies have focused on cheaper and safer robotic explorers since the Apollo missions. These orbiters and rovers have uncovered a great deal about the relationship between the Moon and Earth. But if we want to get to the heart of the Moon’s mysteries and if we want to reach out into the rest of the Solar System and wider Universe, we need a Moon base.

Unfortunately, setting up camp on the Moon is much more difficult than sending astronauts there for a few days. Unlike the Apollo astronauts, lunar settlers wouldn’t be able to carry all their rations and resources on their rocket. It would be too heavy. Instead, they would have to make much of what they would need to survive out of the extra-terrestrial resources to hand. Unfortunately, these resources are pretty barren. But with ingenuity, they can be transformed into almost everything a human needs.

The first task is making breathable air. Surprisingly, this is fairly easy, as the lunar soil is 42% oxygen. Using heat and electricity, this oxygen can be harvested by robots. Already, NASA has developed and field tested prototype robots on Earth capable of fulfilling this role.

Any survival training expert will tell you that water is next on the list. Water is 2/3 hydrogen and 1/3 oxygen. The harvested oxygen offers plenty of the first ingredient. Sourcing the second ingredient is more difficult. At present, the only option would be to send regular supply ships filled with liquid hydrogen, and then mix them together. A better solution would be if we could find water on the Moon. Though the Moon has no liquid water, in 2018 NASA confirmed it does exist on the surface in ice form. Rovers could find, drill and gather this ice.

Settlers would use this water for drinking, and extract the hydrogen and oxygen for rocket fuel. And they would also save some for another key element of survival – growing food. Yet this brings up another problem: can plants grow on the Moon? Unable to bring tonnes of rich, fertile Earth soil with them, the only option would be to use the lunar soil. This soil is like dusty, very fine sand that would rapidly erode away from a plant’s roots. It also contains lots of toxic metals and other compounds harmful to plant growth.

However, experiments here on Earth with soil that mimics lunar dirt have shown promise. Adding human manure to the soil binds the toxic metals and compounds, adds nutrients and helps retain water. The only elements Moon settlers would need to bring from Earth are seeds and earthworms. These worms recycle organic matter and improve soil structure, making them pivotal in creating a sustainable lunar agricultural ecosystem.

Home from home

Beyond the basic requirements of a sustainable supply of air, water and food, settlers would also need to consider a long-term power supply and permanent shelter. Fortunately, the lunar soil comes to the rescue again for both. It contains almost all the materials needed to build solar panels – a limitless and sustainable source of energy.

With no clouds limiting efficiency, the only problem with using solar power on the Moon is surviving the 354-hour lunar night. Solar batteries can store this energy but are far too bulky to be brought from Earth on a rocket. This is why selecting a high point of one of the Moon’s poles has been suggested as a potential base. There, the base could enjoy permanent sunlight (except rare and short lunar eclipses) and therefore power. It would also happen to be where the Moon’s ice is located.

When the settlers arrive, shelter would likely come in the form of inflatable or expandable structures they brought with them. Inflatables are lighter, less bulky and would provide more room than rigid structures. But they would also need to protect the occupants from space radiation, particularly galactic cosmic rays that can damage electronics and DNA.

The best way to counter these energetic particles is to build a shield made of particles that are a similar size. Surprisingly, this means hydrogen is a better option than steel or lead. Engineers are exploring wrapping the habitats in a hydrogen-rich water or plastic jacket, or making the inflatable structures and spacesuits out of hydrogenated nanotubes.   

A simpler alternative is, you guessed it, lunar soil. Though it’s not full of hydrogen, a thick layer would provide plenty of shielding from cosmic rays. European scientists have developed a technique to 3D print bricks from lunar soil, powered solely by the Sun. Their vision is to make an igloo out of these bricks and cover it with loose soil. The igloo would surround the inflatable habitat – not only protecting against space radiation, but also the constant bombardment of micro-meteorites that the lunar surface experiences.

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Our Potential Future Home, the Moon

Have you ever hiked to the top of a mountain and was rewarded to a beautiful view of nature? One of the first thoughts I got from this view is how vast Earth is. It houses millions of different species with each one falling within a phylum with unique and defining traits. However with the rapid expansion of human society, depletion of resources and the human nature to conquer the unknown, it is only natural for us to worry about potentially searching for a new home. One of the most common places people have looked to colonize is our closest neighbor, the moon.

Advantages of Moon  Colonization

Having influenced many science fiction works such as 2001: A Space Odyssey, the moon is the closest celestial body to Earth and it offers some of the greatest advantages for colonization . Not only does this mean a shorter travel time, it also means less spending of resources on transportation as well as more responsive drone control from Earth and quicker communication with Earth. Spacecrafts like the SELENE and NASA’s Clementine Orbiter discovered many areas near the poles where it stays mostly illuminated which means those areas are great for setting up solar panels. On the opposite end of the spectrum, there is also areas of permanent shadow regions discovered by the Lunar Reconnaissance Orbiter. Many of of these areas are craters with water source trapped in them, which can be harnessed and be used by colonists.

Craters on the moon permanently shrouded in shadow. Source NASA

Drawbacks of Colonizing the Moon and the Limitations of our Technology

However, even with all of these advantages, there are still many drawbacks to choosing the moon as our next home. The moon has a surface boundary exosphere , meaning that it offers no atmospheric protection from asteroids and radiation, making colonization very dangerous without proper protection. Another issue is the extremely low gravity of the moon, which negatively impacts the human body by decreasing bone mas when the body is under low gravity for extended period of time. Due to this issue, proper habitation modules must be constructed. Not only does it need to shield us from the external dangers such as radiation and asteroids, it also needs to accommodate many internal factors such as, health management, life support, environmental management, etc. This can be extremely expensive and difficult to construct.

European Space Agency’s “Moon Village” concept. Credit: ESA/Foster + Partners

How Likely is it to Colonize the Moon?

Interplanetary colonization is a fascinating topic and will definitely be an obstacle humanity will have to overcome in the future. However I believe it is something that we can achieve in the near future. According to NASA’s Alexandra Hall and NextGen Space ‘s Charles Miller, we can send another group of people to the moon and set up a colony in 3-5 years from now. The moon is currently our closest option, it offers many advantages as well as many disadvantages.

– Jerry Chen

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How We'll Live on the Moon

NASA planners foresee a manned lunar base in the early 21st century. Why are we going back, and how will we survive once we get there?

In March 1988 , Popular Mechanics ran an article, written by sci-fi legend Isaac Asimov , exploring humanity's future on the moon. With NASA's plans to return to the moon in the coming years and President Trump's recent executive order clearing the way for companies to start mining the moon, Asimov's vision is more relevant than ever.

Reprinted here is the original article in its entirety.

Absolute silence.

The Lunarian stood in the eternal dark within the crater at the Moon’s south pole, and thought that silence was so characteristic—and soothing—and, yes, frightening—about the Moon. He was not a true Lunarian, of course. He had come from Earth and when his 90-day stint was over, he would return to Earth and try to readjust to its strong pull of gravity.

There was no motion anywhere, no sound of living things. There was light along the crater top, as perpetual as the dark at this portion of the crater floor. Farther along the gently rolling floor, in the direction of the opposite side of the crater, was sunlight, too.

The Lunarian looked in that direction, and the photosensitive glass of his faceplate darkened at once.

The Lunarian thought: It is the year 2028 and the Moon has become our second world.

The line between dark and light swung slowly toward him and away in a 4-week cycle. It would never quite reach the point where he was standing, nor ever quite recede out of sight. If he were to move a few miles into the light, he would see the Sun skimming the crater edge along the horizon, but, of course, the faceplate grew virtually opaque if he accidentally looked in the Sun’s direction. At intervals, he could see the Earth, or a portion of it, edging above the crater wall. His heart would always melt at that sight. He tried not to think of Earth.

For now, he was on the Moon. He could make out the line of photovoltaic cells in the sunlight and he knew that solar energy, never ending, was powering the world beneath his feet—which was, as yet, very small. Already, dozens of human beings were housed there and in his lifetime it might well rise to hundreds. An experimental farm existed there, plus a chemical laboratory for the study of lunar soil, a furnace for baking out the small but precious amounts of volatile elements from appropriate ores.

This was not the only Moon base. A much larger one existed near the lunar equator, where the soil was mined and hurled into space to be used as a construction material. A much more specialized one existed on the Moon's far side where a huge radio telescope, insulated from Earth's radio interference by 2000 miles of solid Moon, was being completed.

But it is now 1988. We have visited the Moon six times between 1969 and 1972, and 12 men have trod its surface. But those were visits only. We came, lingered and left—so that the total time human beings have spent on the Moon is less than two weeks.

But we have been sharpening our space abilities, and when we return to the Moon, it will be to stay. A day will come in the future after which there will never be a time when human beings will not be living on the Moon.

NASA is already planning Moon bases. In recent years, scientists, engineers, industrialists and scholars have met to discuss scientific, industrial and sociological issues in connection with living on the Moon. Former astronaut Dr. Sally K. Ride, America's first woman in space, recently produced a report outlining this nation's space goals. Satellite studies of the Earth will remain an important priority, along with the lofting of unmanned spacecraft to explore our solar system.

But the "Ride Report” also stresses a manned permanent presence on the Moon before we embark on a manned mission to Mars, hoping to fully exploit the Moon's resources and scientific opportunities —while boosting our own interplanetary learning curve—before engaging in a Mars space spectacular.

Whether or not we choose to follow the Ride recommendations, the Moon will probably play an important role in man's future space explorations. But why bother? The Moon is a dead, desolate world, without air or water. It is a large super-Sahara. So what is there to make us want to go there, let alone live there?

Super-Sahara or not, the Moon would be useful, even vital, to us in many ways. Some of those ways are not material in nature. For instance, there is the question of knowledge. The Moon has not been seriously disturbed after the first half-billion years of the existence of the solar system (something that is not true of the Earth). We have been studying 800 pounds of Moon rocks astronauts retrieved, but merely bringing them to Earth has contaminated them, and the astronauts were only able to investigate isolated landing areas. If we can investigate the Moon's substance on the Moon, over extended periods and over every portion of its surface, we might learn a great detail about the early history of the Moon-and, therefore, of the Earth as well.

Unlike man's initial forays to the lunar surface, future trips to the Moon will be greatly aided by a space station positioned in low Earth orbit, by orbital transfer vehicles and by expendable lunar landers. It's envisioned that early lunar pioneers will reside in pressurized modules and airlocks—not unlike the modules currently being designed for the space station but with a significant difference. Because the Moon has no protective atmosphere, early settlers will cover their modules with up to 2 meters of lunar soil, or regolith, to protect them from solar radiation. These modules may give way to larger structures positioned beneath regolith archways or buildings made of lunar concrete as requirements change. Indeed, lunar building materials may one day be a principal lunar export.

Solar collectors, photovoltaic systems and small nuclear powerplants positioned well away from lunar habitats would supply the power needs of an early Moon base. The resulting energy would support not only human explorers but a broad array of science and industrial activities, principally lunar mining and astronomical observation. Wheeled lunar rovers powered by the Sun would provide close-in transportation and cargo handling. Vertically launched rocket vehicles would aid in mapping and distant exploration. Some tasks may be performed by intelligent robots already on the drawing board.

After humans become established on the Moon, some visionaries foresee a complex of habitable dwellings and research labs for geochemical, physical and biological research. A life-giving atmosphere "manufactured” on the Moon would promote ecological and agricultural pursuits, helping to make a Moon base self-supporting. Turning to the heavens, special detectors would analyze rays from astrophysical sources, and Moon-based particle accelerators would give new insight into the nature of matter. Spe cial units would process oxygen and refine new ceramic and metallurgical materials. "Moonmovers," adapted from Earthmovers, would excavate building and mining sites.

Think of the nuclear power stations we could build...where safety considerations did not bulk so large. Think of the efficiency of the solar power stations we could build on a world without an interfering atmosphere...

To what purpose? First, but not necessarily foremost, the Moon is a marvelous platform for astronomical observations. The absence of an atmosphere makes telescopic visibility far more acute. The far side of the Moon would allow radio telescopes to work without interference from human sources of light and radio waves. The Moon's slow rotation would allow objects in the sky to be followed, without interference from clouds or haze, for two weeks at a time. Neutrinos and gravity waves, together with other exotic cosmic manifestations, might be detected more easily and studied from the Moon than from the Earth. And, in fact, radio telescopes on the Moon and on the Earth could make observations in combination, allowing us to study in the finest detail the active centers of the galaxies, including our own Milky Way.

The Moon can also be used for experiments we would not wish to perform in the midst of the Earth's teeming life. Think of the genetic engineering we could perform, of the experimental life forms we could devise. We could obtain energy in copious quantities for use not only on the Moon, but for transfer to space structures and even to the Earth. Think of the nuclear power stations we could build (both fission and, eventually, fusion) where safety considerations did not bulk so large. Think of the efficiency of the solar power stations we could build on a world without an interfering atmosphere to scatter, absorb and obscure light.

From the Moon's soil, we would obtain various elements. The Moon's crust is 40-percent oxygen (in combination with other elements, of course). This can be isolated. A common mineral on the Moon is ilmenite, or titanium iron oxide. Treatment with hydrogen can cause the oxygen of ilmenite to combine with the hydrogen, forming water, which can be broken up into hydrogen and oxygen.

But where would the hydrogen come from? Those portions of the Moon we have studied are lacking in the vital light elements: hydrogen, carbon and nitrogen. That makes it seem that these "volatiles” will have to be imported from Earth (which has plenty), but there may be places where they can be found in small amounts on the Moon, especially in the polar regions where there are places where the Sun rarely shines. Lunar hydrogen can then be used to obtain oxygen, and lunar nitrogen can be used to dilute it. There you have an atmosphere.

Other elements, particularly iron, aluminum and titanium, all very useful structurally, are common in the lunar crust and can be smelted out of the soil. In addition, silicon can be obtained for making computer chips. The Moon will be an active mining base to begin with. Quantities of lunar soil can be hurled off the Moon by a "mass-driver,” powered by an electromagnetic field based on solar energy. This would not be difficult because the Moon is relatively small and has a gravitational pull much weaker than that of Earth. It takes less than 5 percent as much energy to lift a quantity of matter off the Moon than it would to lift the same quantity off the Earth.

To build observatories, laboratories, factories and settlements in space, it would make sense to use lunar materials, especially since Earthly resources are badly needed by our planet's population.

Because of the Moon's feebler gravity, it would be a particularly useful site for the building and launching of space vessels. Since far less power would be required to lift a vessel off the Moon's surface than off the Earth's, less fuel and oxygen would be needed and more weight could be devoted to payload.

Eventually, when space settlements are constructed, they may be even more efficient as places where space vessels can be built and launched, but the Moon will retain certain advantages. First, it will be a world of huge spaces and will not have the claustrophobic aura of the space settlements. Second, a lunar gravity, though weak, will be constant. On space settlements, a pseudo-gravitational field based on centrifugal effects may be as intense as Earth's gravitation in places, but will complicate matters by varying considerably with change of position inside the settlement.

The Moon, as an independent world, will represent a complete new turning in human history. Humanity will have a second world.

Then, too, since the Moon exists and is already constructed, so to speak, it can surely be developed first and be used to experiment with artificial ecologies.

Once the lunar colonists discover how to create a balanced ecology based on a limited number of plant and animal species (which may take awhile) that knowledge can be used to make space settlements viable.

Finally, of course, our Moon, with its enormous supply of materials, may eventually become a self-supporting, inhabited body in the solar system, completely independent of Earth. Surely this will become possible sooner than much smaller settlements elsewhere in space can achieve true independence.

The Moon, as an independent world, will represent a complete new turning in human history. Humanity will have a second world. If Earth should be struck by an unexpected catastrophe from without, say by a cometary strike such as the one that may have possibly wiped out the dinosaurs 65 million years ago—or if humanity's own follies ruin Earth through nuclear war or otherwise then a second world will exist on which humanity will survive and on which human history, knowledge and culture will be remembered and preserved.

But when will this colonization take place? Naturally, we can't tell because so much of it depends not on technological ability but on unpredictable economic and political factors.

If all goes well, there is no reason why work on the project cannot be initiated in the 1990s. By 2005, the first outpost could be established, and by 2015, a permanently occupied Moon base may be in existence. After that, it may be that the Moon settlers will have developed their world to the point of being independent of Earth by the end of the 21st century.

On the other hand, if affairs on Earth are so mismanaged that there seems no money or effort to spare for space, or if humanity concentrates its efforts on turning space into a military arena and is not concerned with peaceful development or expansion, or if humanity ruins itself forever by means of a nuclear war in the course of the next few decades, then clearly there will be no Moon base, and perhaps no reasonable future of any kind.

Isaac Asimov was an American writer—creating such sci-fi works as the Foundation series and I, Robot —and a professor of Biochemistry at Boston University. He wrote and edited over 500 books, exploring the possible futures of humanity. He died in 1992, leaving behind a sprawling sci-fi legacy.

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The moon could be our next home: nasa’s plan for a lunar settlement.

NASA has announced plans for humans to inhabit the moon this decade. It’s an exciting prospect, with astronauts set to take the first steps into a new era in outer space exploration. Of course, this is all still in the very early stages, but it does make us wonder what life on the lunar planet might be like.

The thought of living on the moon has people imagining a range of scenarios: from moon colonies to moon tourism, and even a moon Olympics. But before any of us get too carried away, it’s important to remember that living on the moon is a long way off in the future. In the meantime, we should keep our feet firmly on the ground and aim for more realistic destinations holidays in Spain, France, the Caribbean, Portugal, Greece, or the Mediterranean.

After all, planning a holiday to the moon is not something that can be done on a whim. You’ll need to consider a range of factors, such as the moon’s gravitational pull and the availability of air and water. Plus, you’ll want to think about how to keep warm when temperatures can drop to below -100 degrees Celsius. So, for now, it’s best to stick to peruse TripAdvisor or Lastminute.com for more traditional holiday destinations.

In the meantime, here at Ready2Go , we think that it’s worth taking a moment to consider the funny side of living on the moon. For instance, what would it be like to experience a lunar eclipse? Or how about taking a selfie on the moon’s surface? Then there’s the challenge of dealing with moon dust and figuring out how to survive on a limited supply of oxygen.

It’s all a bit of fun, of course, but with NASA’s announcement, it’s clear that the prospect of living on the the Earth’s Natural Satellite is something that’s becoming increasingly realistic. Elon Musk , the founder of SpaceX , has already announced his plans to colonise the moon with a million people by 2050. So, if you’re considering a trip to the moon, you might want to get in early and book your ticket soon!

At the same time, it’s worth noting that moon life has its downsides. For example, it’s impossible to take advantage of Earth’s natural resources, and you can’t escape the monotony of living in a very limited environment. Plus, there’s the added challenge of dealing with reduced gravity, which can be problematic for human health.

In the end, when it comes to holidaying, the moon might be a great destination for some, but for most of us, it’s probably best to stick to the traditional Mediterranean hotspots. After all, there’s plenty of sun, sea, and sand on offer, along with all the food and entertainment that comes with it. And if you’re looking for a truly out-of-this-world experience, you can always book a trip to the Moon once NASA’s plans are further along.

So, while it’s exciting to think about the prospect of humans living on the moon, it’s important to remember that it’s still a long way off in the future. For now, it’s best to keep our feet firmly on the ground and book a holiday in Spain, France, the Caribbean, Portugal, Greece, or the Mediterranean. After all, nothing compares to a good old-fashioned beach holiday!

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Life Beyond Earth: A Detailed Concept for a Moon Habitat

A detailed concept for a lunar habitat, created by one of the world’s leading architectural firms with ESA technical support, is currently on show at the Biennale in Venice. Skidmore, Owings & Merrill, originator of many of the world’s tallest skyscrapers, worked with ESA on a semi-inflatable habitat design which could be part of a long-term vision for an international Moon settlement.

The resulting design is on show at the  17th International Architecture Exhibition of La Biennale di Venezia . While the theme of the overall exhibition is ‘ How will we live together? ’, the SOM installation is called ‘ Life Beyond Earth ’, peering beyond our post-COVID-19 planet to show how human life can be sustained in the hostile space environment.

The installation encompasses two large-scale, physical models and a film that together bring Biennale visitors on a journey from Earth to the Moon’s surface. Close-up details of an individual habitat module enable visitors to imagine everyday life in the lunar environment and understand the engineering and technology that enable its design.

Retired NASA astronaut Jeffrey Hoffman, now Professor at  MIT ’s Department of Aeronautics and Astronautics, advised the SOM team on the livability of their design, based on his experience living and working in space.

“ ’Life Beyond Earth ’ represents a paradigm shift in space architecture and offers insights discovered through international cross-sector cooperation,” said SOM Senior Designer Daniel Inocente. “The challenges confronted here inspired new solutions and enabled us to envision a future for humanity beyond Earth.”

“The invitation to exhibit at the Venice Biennale and generally the positive response to this fruitful collaboration between our space engineering world and architecture experts are very encouraging,” added ESA materials engineer Advenit Makaya. “This project could pave the way for further multidisciplinary exercises here in Europe, when thinking about future sustainable human habitat concepts.”

Inspiration for the lunar habitat came from the vision of the international Moon Village, a hypothetical concept for lunar settlement through an alliance of private and public, space and non-space partners.

SOM began working on their study in 2018, which subsequently underwent a detailed study by ESA’s Concurrent Design Facility (CDF). Located at the Agency’s technical heart, in Noordwijk, the Netherlands, the CDF brings together a network of space specialists to perform rapid evaluations of novel mission concepts and create workable blueprints.

“The team was enthusiastic from day one,” states CDF team leader Robin Biesbroek. “Our CDF sessions allowed us to perform a close review of the design with our own ESA experts, providing valuable feedback to SOM.”

Taking the inflatable  BEAM module  currently attached to the International Space Station as a starting point, SOM designed a semi-inflatable shell structure to offer the highest possible volume to mass ratio. Once inflated on the lunar surface, it would reach approximately double its original internal volume.

A lot of work went into the four-story habitat interior, in terms of lighting conditions, reconfigurable features, and a high floor-to-ceiling space, to allow crew members to take advantage of lunar one-sixth g using grabbing bars and other simple aids.

Its chosen site has been described as the most desirable real estate in the Solar System: the rim of Shackleton crater beside the lunar South Pole. Avoiding the crippling temperature extremes of the Moon’s two-week days and nights, this location offers near-continuous sunlight for solar power, an ongoing view of Earth, and access to lunar water ice deposits in adjacent permanently-shadowed craters.

After landing, the habitat would be inflated either locally by astronauts or else via rovers teleoperated from the  Gateway station around the Moon. It would keep its four-person crew alive and comfortable for up to 300 days at a time.

“Our partnership with ESA demonstrates how interdisciplinary collaboration can support international goals for space exploration,” said SOM Design Partner Colin Koop. “It takes an unconventional approach to extraterrestrial habitat design, combining the expertise of the building and space industries and applying knowledge from the realms of architecture, urban planning, science, commerce, and psychology.”

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Por que en primera instancia en ves de hacer un abita en la superficie no hacen subterráneas para abaratar coste

Might as well face facts China will colonise the moon, Europe and America smoking pot injecting drugs will never be able to achieve colonisation of the moon, I saw Neil Armstrong live in 1969,if America was going to do it it would have done it by now.

Colonize the moon? Why, exactly? Just to say we did? There’s nothing there worth the risk and expense. We should be pouring money into telescopes and other astronomic technology that can help us find other civilizations in the known universe. The reality is, no one is ever going very far from earth in tin cans. The *only* craft that would be safe to travel on through the void of space is the one we are on. Travel to the moon to prove we can do it? Sure, I’m in on that. Colonize the moon with actual people? Why? What will they produce for us?

Why do this? Because the moon is a stepping stone to deeper human space exploration. It offers resources that can be used to build and fuel, say, human missions to Mars, which can then launch from lunar gravity, rather than having to launch from the surface of Earth. And it’s a relatively nearby testing ground for the technology that will be needed for crewed missions to other destinations, or for permanent colonies.

If you think that crewed flights to Mars or other planets, or eventual human colonies on Mars are goals worth pursuing, then it’s almost a given that we start with the moon. If you don’t think these goals are worthwhile, then that’s a whole different discussion.

Why do this? Because real estate is cheap.

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Why the Moon?

The Artemis missions will build a community on the Moon, driving a new lunar economy and inspiring a new generation. This video explains why returning to the Moon is the natural next step in human space exploration, and how the lessons learned from Artemis will pave the way to Mars and beyond.

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