This House believes in manned space flight

Human history is one of exploration. Since the earliest days of Homo sapiens, people have striven to look beyond the horizon, to see what is out there. It was this impetus that led humans out of the small corner of Africa where the species was born, to see new places, to find new fertile lands to explore. It was this impetus also that led the first European explorers to traverse the great waters of the Atlantic Ocean in search of new trade routes, braving the very real risks of storm, disease, piracy, and fatal disorientation, as well as the perceived risks of sea serpents and other monsters awaiting unwary travelers. When the surface of the world was finally mapped, people set their sights on exploration of the sea floor, to climb the highest mountains, and finally to reach the stars themselves, all because they were challenges, unknowns to be made known.[1] Mankind’s place is among the stars. Simply perusing pictures of space sent back by unthinking, unfeeling robots would never be enough to satisfy humanity’s curiosity. Governments should not try to slow Man’s progress to the stars but should promote and fund it, for to do otherwise is to end part of what it is to be human.

[1] Dick, Steven. “Why We Explore”. NASA, 2009.

Curiosity and the will to explore certainly is a fundamental part of the human condition. But the human body has natural limitations that technology cannot overcome. While artifice can go a long way to making places suitable for the frail human form, it can only go so far. Manned space flight is extremely expensive, costing the US government, the primary investor in space technologies tens of billions of dollars every year, yet there remains no clear plan for humans to return to the moon, let alone Mars and the rest of the solar system.[1] Exploration beyond the solar system remains a pipe dream. The laws of physics likewise seem to make the possibility of human exploration beyond the solar system nigh impossible. Other stars are simply too far away for a human to reach. The reality simply is that manned space flight is too costly and will likely never find application beyond Sol.

[1] Kaku, Michio. “The Cost of Space Exploration”, Forbes, 2009.

Space exploration and research have resulted many major advances in science and technology. Everything from Velcro to more efficient and powerful computers has come out of the space program. Many of these developments arose due to the focus on the human element of space travel; scientists had to focus on the very real challenge of getting humans into space and back home safely.[1] Furthermore, there are some experiments that can only be conducted in space and that require the dexterity and problem-solving skills of humans. While robots are very good at carrying out pre-designed programs and collecting data, their ability to think critically and engage in problem solving is quite limited. In order to get the most of space travel and exploration, humans must be present to add their critical thinking and physical capacity to missions. For technology to continue to develop through the space program the paradigm of exploration must be maintained. This can only be done through manned space flight.

[1] Coalition for Space Exploration. “Benefits of Space”. 2010.

Humans are more liability than asset when it comes to space travel. While humans can think outside the box more readily than machines, developments in cognitive science and computer design have resulted in ever more competent computers that are gaining more and more the ability to solve problems on their own. Furthermore, humans are physically fragile; in the event of even slight damage to a spacecraft, all humans on board could be killed. They are also susceptible to health risks in the form of radiation damage and muscle and bone loss due to the zero gravity conditions of space.[1] Unmanned ships are far more capable of surviving the dangers of space, and of completing missions successfully.

[1] Ad Hoc Committee on the Solar System Radiation Environment. "Space Radiation Hazards and the Vision of Space Exploration." National Research Council.

People do not get excited when they see robots launched into space; there is no romance or adventure in a computer attached to a rocket. To enflame people’s imaginations and enthusiasm for space travel, real-life astronauts must be involved. Furthermore, it is harder for people around the world to develop a sense of connection to an unmanned space flight. Manned missions, however, can become ambassadors of all humanity. In no endeavor have scientists from around the world more readily worked together than in the development of the International Space Station and other space-related enterprises. Looking beyond the Earth serves to unite humanity in a way nothing else can.[1] When the Apollo astronauts first transmitted images of the Earth back to the waiting masses, the sight of that tiny blue-white marble suspended in the vast void profoundly changed the way many people viewed themselves. There was for the first time a sense of oneness, of citizenship of this island Earth. In the exploration of space, astronauts are not just citizens of their home countries, but are emissaries of the entire human race. In this way space exploration actually gives mankind a transcendent purpose, promoting peace and understanding among nations that no amount of conventional diplomacy can create.

[1] Van de Hulst, H. “International Space Cooperation”. Bulletin of the Atomic Scientists 17(5). 1961

While unmanned space exploration is not as romantic as manned space flight, it is more functional. Exploring space is extremely expensive and governments have to consider the practicalities of exploration more than the glamour. Scientifically, little is gained by manned flight over unmanned flight. In terms of increasing interest in space flight, it is questionable whether states encouraging interest in space exploration is the best thing at all. They could simply use space exploration, especially exciting manned voyages, as means of distracting public attention from domestic problems. It is better for people to be focused on life on this planet than on the mysteries of space.

The Earth has suffered a number of catastrophic events in its history. The galaxy is permeated with giant meteors like the one that struck the Earth 16 million years ago, which succeeded in wiping out the dinosaurs and precipitating an ice age.[1] Other cosmic risks exist as well, such as the threat of deadly radioactive waves given off by supernovae that can span the gulfs between stars and scorch planets many light-years away. Likewise, risks closer to home could prove equally destructive. Intense solar flairs from our sun could scorch a whole side of the planet. While all these occurrences are very rare, they remain possibilities, and should any of them ever occur, it could prove the end of humanity, and even life on Earth. In order to guarantee the survival of the human race, manned space flight must be made viable. One day it may prove necessary to leave this cradle of life in pursuit of a new home, and it would be wise to invest in developing the technology to do so rather than to wait until it is too late and only be able to watch as mankind’s doom arrives.

[1] Gerakines, Perry. “What is the Chance of an Asteroid Hitting Earth and How Do Astronomers Calculate It?” 2005.

The probability of any cosmic collision or other destructive event is extremely low and not worth thinking about. In any event, manned space flight would not be viable for the purpose of saving humanity from a dying Earth for many years, if ever. Governments and people should focus their attention on developing this planet, rather than worrying too much about finding new ones to inhabit.

Human history is one of exploration. Since the earliest days of Homo sapiens, people have striven to look beyond the horizon, to see what is out there. It was this impetus that led humans out of the small corner of Africa where the species was born, to see new places, to find new fertile lands to explore. It was this impetus also that led the first European explorers to traverse the great waters of the Atlantic Ocean in search of new trade routes, braving the very real risks of storm, disease, piracy, and fatal disorientation, as well as the perceived risks of sea serpents and other monsters awaiting unwary travelers. When the surface of the world was finally mapped, people set their sights on exploration of the sea floor, to climb the highest mountains, and finally to reach the stars themselves, all because they were challenges, unknowns to be made known.[1] Mankind’s place is among the stars. Simply perusing pictures of space sent back by unthinking, unfeeling robots would never be enough to satisfy humanity’s curiosity. Governments should not try to slow Man’s progress to the stars but should promote and fund it, for to do otherwise is to end part of what it is to be human.

[1] Dick, Steven. “Why We Explore”. NASA, 2009.

Curiosity and the will to explore certainly is a fundamental part of the human condition. But the human body has natural limitations that technology cannot overcome. While artifice can go a long way to making places suitable for the frail human form, it can only go so far. Manned space flight is extremely expensive, costing the US government, the primary investor in space technologies tens of billions of dollars every year, yet there remains no clear plan for humans to return to the moon, let alone Mars and the rest of the solar system.[1] Exploration beyond the solar system remains a pipe dream. The laws of physics likewise seem to make the possibility of human exploration beyond the solar system nigh impossible. Other stars are simply too far away for a human to reach. The reality simply is that manned space flight is too costly and will likely never find application beyond Sol.

[1] Kaku, Michio. “The Cost of Space Exploration”, Forbes, 2009.

Space exploration and research have resulted many major advances in science and technology. Everything from Velcro to more efficient and powerful computers has come out of the space program. Many of these developments arose due to the focus on the human element of space travel; scientists had to focus on the very real challenge of getting humans into space and back home safely.[1] Furthermore, there are some experiments that can only be conducted in space and that require the dexterity and problem-solving skills of humans. While robots are very good at carrying out pre-designed programs and collecting data, their ability to think critically and engage in problem solving is quite limited. In order to get the most of space travel and exploration, humans must be present to add their critical thinking and physical capacity to missions. For technology to continue to develop through the space program the paradigm of exploration must be maintained. This can only be done through manned space flight.

[1] Coalition for Space Exploration. “Benefits of Space”. 2010.

Humans are more liability than asset when it comes to space travel. While humans can think outside the box more readily than machines, developments in cognitive science and computer design have resulted in ever more competent computers that are gaining more and more the ability to solve problems on their own. Furthermore, humans are physically fragile; in the event of even slight damage to a spacecraft, all humans on board could be killed. They are also susceptible to health risks in the form of radiation damage and muscle and bone loss due to the zero gravity conditions of space.[1] Unmanned ships are far more capable of surviving the dangers of space, and of completing missions successfully.

[1] Ad Hoc Committee on the Solar System Radiation Environment. "Space Radiation Hazards and the Vision of Space Exploration." National Research Council.

People do not get excited when they see robots launched into space; there is no romance or adventure in a computer attached to a rocket. To enflame people’s imaginations and enthusiasm for space travel, real-life astronauts must be involved. Furthermore, it is harder for people around the world to develop a sense of connection to an unmanned space flight. Manned missions, however, can become ambassadors of all humanity. In no endeavor have scientists from around the world more readily worked together than in the development of the International Space Station and other space-related enterprises. Looking beyond the Earth serves to unite humanity in a way nothing else can.[1] When the Apollo astronauts first transmitted images of the Earth back to the waiting masses, the sight of that tiny blue-white marble suspended in the vast void profoundly changed the way many people viewed themselves. There was for the first time a sense of oneness, of citizenship of this island Earth. In the exploration of space, astronauts are not just citizens of their home countries, but are emissaries of the entire human race. In this way space exploration actually gives mankind a transcendent purpose, promoting peace and understanding among nations that no amount of conventional diplomacy can create.

[1] Van de Hulst, H. “International Space Cooperation”. Bulletin of the Atomic Scientists 17(5). 1961

While unmanned space exploration is not as romantic as manned space flight, it is more functional. Exploring space is extremely expensive and governments have to consider the practicalities of exploration more than the glamour. Scientifically, little is gained by manned flight over unmanned flight. In terms of increasing interest in space flight, it is questionable whether states encouraging interest in space exploration is the best thing at all. They could simply use space exploration, especially exciting manned voyages, as means of distracting public attention from domestic problems. It is better for people to be focused on life on this planet than on the mysteries of space.

The Earth has suffered a number of catastrophic events in its history. The galaxy is permeated with giant meteors like the one that struck the Earth 16 million years ago, which succeeded in wiping out the dinosaurs and precipitating an ice age.[1] Other cosmic risks exist as well, such as the threat of deadly radioactive waves given off by supernovae that can span the gulfs between stars and scorch planets many light-years away. Likewise, risks closer to home could prove equally destructive. Intense solar flairs from our sun could scorch a whole side of the planet. While all these occurrences are very rare, they remain possibilities, and should any of them ever occur, it could prove the end of humanity, and even life on Earth. In order to guarantee the survival of the human race, manned space flight must be made viable. One day it may prove necessary to leave this cradle of life in pursuit of a new home, and it would be wise to invest in developing the technology to do so rather than to wait until it is too late and only be able to watch as mankind’s doom arrives.

[1] Gerakines, Perry. “What is the Chance of an Asteroid Hitting Earth and How Do Astronomers Calculate It?” 2005.

The probability of any cosmic collision or other destructive event is extremely low and not worth thinking about. In any event, manned space flight would not be viable for the purpose of saving humanity from a dying Earth for many years, if ever. Governments and people should focus their attention on developing this planet, rather than worrying too much about finding new ones to inhabit.

Space exploration costs enormous amounts of money. The United States spends tens of billions of dollars every year on its space program, and the Chinese and European space agencies are seeking to catch up technologically. Overall, the amount of money wasted is astronomical. Even if manned space flight were a desirable goal, the cost is far too great. Unmanned space flight offers the same benefits at far less expense, since unmanned vessels weigh less than those needed to carry humans, and do not require the expensive and sophisticated life-support technology necessary to sustain human life in the harsh wilderness of space.[1] Furthermore, the benefits accrued from spin-off technology resulting from space exploration are generally overstated. NASA, for example, had claimed that protein crystals could be grown in zero gravity that could fight cancer, as well as numerous other claims of benefits. Most of these benefits have never materialized. With all the billions of dollars wasted on manned space flight, most of the spin-off technologies could likely have been created independently, given the resources, and probably at lower overall expense.

[1] Kaku, Michio. “The Cost of Space Exploration”. Forbes. 2009.

The paradigm of exploration is essential to the progression of technology. Space is the last great frontier and represents the perfect object on which to construct and maintain this paradigm. The costs of manned space flight are great, but the core human drive to explore can only be satisfied by supporting it. Furthermore, the spin-off benefits of space exploration are numerous. Computers have become more compact and more powerful due to research conducted under the aegis of space exploration. Even things as ubiquitous and central to everyday life as Velcro, Teflon, and ballpoint pens find their origin in space exploration.[1] The dream of exploration should not be killed for the sake of saving money.

[1] Coalition for Space Exploration. “Benefits of Space”. 2010.

Manned space flight appears to have little practical use. While its supporters talk about traveling to other planets, the technology simply does not exist, nor may ever exist, to send humans to worlds that could be even potentially habitable. It may be possible to send humans to Mars, or the moons of Jupiter and Saturn, but doing so would have little value other than for the sake of planting boots on alien soil.[1] Any research worth conducting on planets within the solar system can be done just as well by robots, at considerably less expense. The laws of physics seem to show that it is impossible for ships to travel at or past the speed of light, meaning any journey to planets beyond the solar system would take centuries at least. It is unlikely, for this reason, that manned space travel will ever be a practically useful endeavor. Research should be put into technology that can actually lead humanity somewhere. There is nowhere for humans to go in space that robots cannot, and nowhere worth the cost of their going.

[1] Leath, Audrey. “Should Mars Be Human Space Flight Objective?”. American Institute of Physics 2003. 

While the technology is still in its infancy there is still much lending itself to the value of interstellar travel. The Earth cannot sustain life forever, and the risk of a catastrophic event such as a giant asteroid impact is always real.[1] Developing technology that can sustain humans aboard spacecraft for several generations as well terra-form potential new homes are of the utmost importance to lasting human survival. Many things in the realm of science fiction today can be made reality given the will and resources. It is essential that humanity dedicate itself to the cause of manned space exploration, for the sake of its will to explore, as well as its will to survive.

[1] Gerakines, Perry. “What is the Chance of an Asteroid Hitting Earth and How Do Astronomers Calculate It?”. Scientific American. 2005.

The Earth is faced with many problems. Global warming, the destruction of ecosystems, rising sea levels, pollution, and resource depletion are all issues weighing heavily on states and the international community as a whole. Individuals and governments need to rally and fight these growing terrestrial problems. The resources poured into manned space travel that will likely serve no lasting purpose would be better spent in combating the hundreds of serious issues facing the planet today. Space exploration serves only as a distraction, keeping people’s minds off the pressing concerns of the Earth. Furthermore, governments can use manned space flight as a means of distraction quite deliberately. It is often easier to devote attention and resources to headline-grabbing endeavors like putting a man on the moon or on Mars than to address concerns like global warming, which requires extensive international coordination to a degree rarely reached in history. Governments may find utility in keeping people focused on such grand projects while doing comparably little to affect change where it is direly needed. Clearly, humanity’s concerns should be focused wholly on the survival of its home world, not on exploring worlds that might not even exist, and almost certainly cannot sustain human life.

Certainly there are many concerns on Earth that must be addressed if mankind hopes to survive. Pollution and climate change are real threats that deserve a great deal of attention from all governments around the world, since everyone is affected. This attention, however, does not need to exclude from the agenda the development and propagation of manned space flight. Rather, states can focus on more than one science-based issue at a time. It is rather disingenuous, in fact, to suggest that it is a matter of one or the other. Furthermore, the international unity created by manned space exploration, binding people not as members of separate nations, but as members of the human race, can serve as a means of promoting unified action on issues affecting the whole planet. Space exploration can thus actually help to ameliorate coordination problems between states in their efforts to deal with global issues. Clearly, when people think of themselves as citizens of the world they are more ready to think globally and consider issues affecting other countries. Space exploration is very real means of promoting such thinking.