kelvinzero":3l505fgc said:
bowman316":3l505fgc said:
Ok, So I think we all pretty much agree that it is pretty much impossible to travel near the speed of light, and even doing so, it would take hundreds of years to travel between planets in out universe. But I think we are just thinking about space travel in the wrong way.
Any being that wants to travel hundreds of light years needs to plan for being on that ship for hundreds of years. They would need to grow their own food, probally have a huge reserve of nuclear power, to both power the ship, but also power lights to grow food. Which will also replace oxygen on the ship.
Basically Imagine a mini planet, that you can steer in a certain direction. The people living on this ship would go thru many generations before they find another planet with life, but they would be a self sustaining ship. As long as they had plutonium.
Why do we assume that a 100 year journey would be impossible?
I think we are just too narrow minded on this aspect of space travel. Maybe another civilization lives for 1,000.
Hi Bowman,
Preaching to the converted here.
Only thing I would note though is that we have a whole solar system to colonize here before worrying about how we get to the next one.
Sure, other stars may have more earthlike worlds, but earthlike worlds are not the way forward. They are very hard to leave or trade from. I think a world like ceres could be a much better centre for a space faring civilisation. It is basically a big ball of rock and ice only just big enough to be spherical. You cant live on it but you can build cities into it. The weak gravity has some overhyped health problems but solving these are not a millionth as hard as interstellar travel (during which you would probably also have weightlessness).
Imagine a solar system where half of these worlds had colonies built into them, Cities of interconnected spherical chambers several kilometers across, and travel times between worlds varied from years to days across an entire solar civilisation.
http://en.wikipedia.org/wiki/List_of_So ... ts_by_size.
That is a great link. I highly recommend it for dreamers.
You made an interesting point about energy. That is the critical factor. You mentioned trade that's another critical factor. Energy expended at a certain rate determines power levels, and also mass flow between worlds. Gravity is a factor, location another. There is a minimum energy between worlds - Hohmann transfer orbit.
http://en.wikipedia.org/wiki/Hohmann_transfer_orbit
Ultimately we get power from the sun or some other nuclear source.
What mass flow rate is needed?
Americans in the late 20th century and early 21st century used about 5 tons per person per year. This might be considered a benchmark. When one considers that 2 tons of that is fossil fuel, and another 1 ton is basically gravel, you end up seeing that 2 tons per year supports a person at a fairly high living standard. 10 billion people living at late 20th century living standards, replacing fuel with laser energy generated in space, and replacing gravel with locally derived stuff - requires that transport of 20 billion tons of material per year.
The asteroid belt is a good choice of early stage feedstock. The belt consists of 3e18 tons of materials in 1.6 million bodies of 1 km or more.
http://en.wikipedia.org/wiki/Asteroid_b ... cteristics
If 5% of this material is industrially useful, this is 1.5e16 tons of materials. Enough to supply 10 billion people for 1 million years without recycling. If they consume at the rate of modern billionaires - 10 tons per year (principally jets and yachts and very large homes - which in this age would be personal spacecraft, and personal space colonies) - then there is 100,000 years capacity. If they consume at 50 tons per year (personal interstellar arks) then there's 50,000 years supply - but this opens up other star systems for use.
Back to our mining analysis ...
Ejecting small bodies a few dozen meters in size using solar powered electromagnetic launchers at the asteroid belt brings materials wherever they're needed - Mars, Moon, Earth...
http://en.wikipedia.org/wiki/Electromag ... nch_System
For Earth the ejectors impart the 1500 to 2500 m/sec speeds to lower the perhelion of the orbiting mass to 1 AU, oriented and timed so that the mass arrives near Earth when it reaches perihelion. This operates for four months out of a year when the Earth is in synodic range. The other 8 months out of a year, solar energy is used to process materials for shipment during the synodic season.
Rocket action is used to slow the mass as it approaches Earth. This is easily achieved by using a small solar powered electromagnetic launcher that ejects unwanted materials left over from processing on Ceres - as reaction mass to slow down the wanted materials.
The ejection speed is selected to minimize energy - 5,000 m/sec approximately - which means reaction mass is 63.2% of the total mass that started out from Ceres (or other dwarf planets in the asteroid belt)
It takes about 7 km/sec to bring something from Ceres along a minimum energy orbit. Most of the delta vee is done near Earth - which is good, because sunlight is more powerful here. Ejecting material from the asteroid slows it down.
It takes energy to run the ejection unit and 1.72 tons of waste is ejected for each 1 ton of useful material. At 5,000 m/sec means that 21.5 gigajoules is needed (about 3.5 barrels of energy equivalent) is needed to retrieve each ton of useful material into Earth orbit. The ejected material is made up of nanoparticles and fabricated so they evaporate during ejection so they do not pose a navigation hazard.
Recall we use solar energy, and also recollect that we consume 2 tons of raw materials per year to maintain a very high lifestyle for everyone. That's 43 Gigajoules per year. There are 31,557,600 seconds in a year, so each person requires 1,363 watts continuous to maintain the mass flow rate from Ceres needed. With a 50% efficient solar panel (recently achieved by Boeing's Spectrolab) this requires only 2 square meters of solar collector. Using thin film optics and high intensity photocells, this only costs $14 CAPEX - which with a 40 year life span - translates to $0.02 per ton transport cost!!! (for the energy) Similar analysis shows that each ton would cost $0.10 - ten cents ...
The raw materials enter into a sun-synchronous polar orbit - the orbits used by spy satellites - that way they may be conveniently deorbited wherever they are needed - and pass over every point on Earth every 12 hours - as the Earth rotates under the orbit.
http://en.wikipedia.org/wiki/Sun-synchronous_orbit
http://en.wikipedia.org/wiki/Polar_orbit
As these materials accumulate in a ring -
http://en.wikipedia.org/wiki/Planetary_ring
And are met by a large tele-operated solar powered factory satellite brought to orbit by nuclear pulse rocket.
http://en.wikipedia.org/wiki/Project_Or ... propulsion)#Sizes_of_Orion_vehicles
Using a microfission trigger for an aneutronic fusion device to power these vehicles, this is a way to 'burn off' our nuclear stock pile, without causing massive pollution. Only a limited number of ships are needed to lift the initial factories, which then use the raw materials arriving on orbit each day to expand their capabilities.
Teleoperation was developed for handling nuclear materials 70 years ago. The innovation of the assembly line turned 100 years old in 2008. It ushered in the modern consumer culture and the American way of life - by increasing wages of workers 5x (the famous $5 per day pioneered by Ford, workers made enough to buy the cars they made!) while increasing their productivity 10x which made Ford and his workers rich simultaneously! This is an inspirational story worthy of emulation today - and ends the historic stand off between management and labor.
The USA never adopted teleoperation into its factories. Partly because the technology was initially developed under military auspices and was partly classified. Partly too because the USA elected to give its manufacturing capacity to its allies, and its extraction capacity to its friends (while isolating its enemies from trade). This was done because of an economic truth - $1 worth of ore is made into $5 worth of metal, and that trades in $25 worth of services. Similarly $1 worth of wheat makes $5 worth of flower which turns into $25 worth of pastries. By exporting extraction and refining and concentrating on banking and retail - the USA imposed what it thought was a permanent disparity of income betwen itself and the rest of the world. This protected us in the nuclear age since poor nations don't attack rich nations. And, rich nations can afford better weapons. Things have not worked out as folks in the 1940s had planned - well they only planned for 50 years - but we haven't addressed these issues in a long long time, and most folks don't know and don't care - meanwhile, others aren't keen to educate us - especially if they benefit from our ignorance.
Raw material shortages, along with environmental costs, have increased the cost of raw materials. Automation and improvements in productivity, have increased the value of the manufacturing function. Meanwhile, internet and software have commoditized banking and retail. America has ignored this trend over the past 30 years - and has paid the price.
Anyway, teleoperation developed by the USA 70 years ago, never made it into the factories - and so - we're still using 100 year old assembly line technology - except - those who have benefited from US ignorance in manufacturing - have made progress - this paper is nearly 10 years old now
http://sciencelinks.jp/j-east/article/2 ... 814533.php
Bottom line, I don't want to hear any argument from folks who say this is sci fi - haha - long before we have fully unmanned factories, we will have teleoperated factories. In fact with modern sensing and communications and computing systems - we have the means to institute teleoperated jobs today.
This reduces transport cost of workers, and radically improves worker opportunity. Apu needn't leave his beloved India to work at the Quickee Mart in Springfield - if a teleoperated robot technology existed. Mr. Burns could move his nuclear power plant to the bottom of the ocean, and Homer Simpson could eat donuts at a teleoperation office erected near his home. His $20,000 automobile is replaced by a $2,000 teleoperation unit - and the $1 million per lane mile road is replaced by a $1,000 broadband channel.
In the 1910s and 20s - adoption of the automobile and trucks, freed commerce from the train stations and shipping ports in America. As a result people could work and buy and sell at a far greater number of places. As a result, the combinations and permutations of work and business increased factorially as speeds increased. Allowing all people everywhere to interact in work and business provides a radical improvement in humanity's ability to create wealth - quite apart from raw material and energy limits. This is why teleoperation and space communications is a necessary adjunct to this program described here.
Bottom line here we are deploying teleoperated factories on orbit. In this way, anyone living anywhere can work anywhere else - including orbit - without a lot of infrastructure. With a steady stream of materials arriving from the asteroid belt into the 'material plane' above Earth processed into goods and food and fiber - the teleoperated factories farms and forests have a rich field of materials to operate from. Its easy to move thing through the orbital plane. Easy to keep things from wandering away via shepherd moons with engineered orbits. Easy to fabricate things in space using teleoperation and solar power. Easy to send things directly to users anywhere in the solar system with solar powered electromagnetic launchers. Products rain down from the heavens continuously - in response to satellite telephone calls - and people find work easily that is highly productive - no matter where they live.
We also easily expand the capacity of production on orbit - and this is the halfway point to anywhere. It takes 9 km/sec to lift an object from Earth orbit - only 0.5 km/sec to bring it down. It takes another 9 km/sec to cause an object to escape the solar system.
http://en.wikipedia.org/wiki/Delta-v_budget
So, teleoperated factories within a 1/10th light second of Earth's teeming population, powered by constant sunlight fed with a steady stream of rich asteroidal materials, equipped with an electromagnetic launcher technology that sends products throughout the solar system - provides a means to create wealth on a scale unprecedented in history.
And this is before automation of the tele-operated systems provides even greater wealth potential!!
The USA is keeping its missile secrets classified in the misbegotten notion that it is made safe from missile and nuclear proliferation. Even while nations as backward as North Korea and Iran build space launch capability.
We need to address again the thinking -even the secret thinking- of the post world war two era - in light of the realities of today's world - and make best use of what we are best at - to contribute again to a mighty improvement in what humanity is capable of.
The transition is seamless from the world we see today to the world I just described, to expanding beyond the confines of Earth, and beyond the confines of the solar system.
We ALREADY have all we need to carry this out. All we lack is the will and imagination to do so and the courage to talk openly about it.
MEMS based rocket arrays forming low cost highly capable propulsive skins allow the safe reliable recovery of deorbited products of space industry. Advances in this technology allow ballistic point to point transport of goods at very low cost especially if water is used as propellant and very low cost laser energy is used to energize these rockets at 1,000 sec Isp. These low cost landing systems will grow from ballistic package delivery, to ballistic personal transport, to low cost orbital access. At this point the factories, pressure vessels, farms and forests on orbit - will be joined by low cost space homes - and those space homes will become spaceships using sun orbiting laser energy to drive laser pulse rockets, and ultimately personal interstellar arks driven by laser light sails powered by sun orbiting lasers.
It a continuum we could transition to in 50 years or less. It is a continuum we could have COMPLETED by 1990 had we started when vonBraun made his recommendations to the US Army after World War 2. We took another route, and marginalized vonBraun - JFK enabled him after being embarrassed by Gagarin and the Bay of Pigs - but marginalized again by LBJ and Nixon.
We have the means, and have had the means for the past 50 years to do whatever we wanted in the solar system, and to get rich doing it. All we must do is give up a few cherished ideas that served us once, but no longer serve in the modern age.
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