Space Elevators -> US Transportation Infrastructure

In summary, space elevators are a transportation infrastructure that could be used to help solve some of the United States' transportation problems.
  • #1
blu3boy
15
0
Space Elevators --> US Transportation Infrastructure

Alright, I really wasn't sure where to post this question regarding space elevators. I'm on the debate team at my school, and I've found that I can't get motivated with the current topic of "transportation infrastructure." until I realized that a space elevator/launch loop/hyperloop could be considered transportation means. The difficult part is finding proof that it is topical and fits within the criteria set by:

"The United States will substantially increase its investment in transportation Infrastructure within the United States"

Now, this really gets my excited, it has everything that I like. Physics, space, and engineering, and I could really speak from the top of my head. Last year I won first place in state, but this year I've consistently been placing 9/10th place against the same people, and it's not really to my taste. I've found that just the idea of being able to find some way to relate space elevators/launch loops (hyperloops are actually topical, but alternatively, I'd rather argue the default highspeed rail argument because It'd save me research that I really don't want to do. I wouldn't mind doing research for space elevators/launch loops, though) is exciting.

If you think those aren't topical, could you perhaps suggest to me projects that may be that relate to engineering/physics feats that are possible?See, if someone could just provide me with a set-in-stone definition of what exactly transportation infrastructure is, and a clear idea of why or why not space elevators would work, I'd love it.

I've already found counters to every counter argument there is (federalism, spending, climate change, etc.) and as soon as I can find a way to make it topical, I think I can really make my come back.P.S - I really wasn't sure where I'd post this - I went ahead and posted it in engineering because I figured it be most relevant here. If a moderator sees this, could you perhaps move this? Thank you.

And thanks to everyone that helps too.
 
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  • #2


This isn't my field but I think you're too off topic. For one thing a space elevator would have to be built on the equator, secondly it's still a speculative engineering topic as there is no way to build one currently.

Lastly it's unclear to me exactly what the topic means. Are you meant to argue whether or it the US will substantially invest in the future?
 
  • #3


Ryan_m_b said:
This isn't my field but I think you're too off topic. For one thing a space elevator would have to be built on the equator, secondly it's still a speculative engineering topic as there is no way to build one currently.

Lastly it's unclear to me exactly what the topic means. Are you meant to argue whether or it the US will substantially invest in the future?

No, on the contrary, most people tend to argue that the United States shouldn't risk harming today's economy by investing too much into the future. I tend to choose which to argue based on what the opponents are arguing.

If not a space elevator, do you have another physics based transportation system (really stressing the science factor.) that I could use? Preferably something well known so I could find articles supporting it.
 
  • #4


blu3boy said:
No, on the contrary, most people tend to argue that the United States shouldn't risk harming today's economy by investing too much into the future. I tend to choose which to argue based on what the opponents are arguing.

If not a space elevator, do you have another physics based transportation system (really stressing the science factor.) that I could use? Preferably something well known so I could find articles supporting it.

Oh, and also, whether or not we can build it now isn't an issue. If it fits the criteria (even if it were to be decades from feasibility) I could still argue it. It IS debate, after all.
 
  • #5


Hmm given the economic focus it seems like your best bet would be to stick to something fairly established and known to be a good return on investment. Something like rail might be a good focus, if you try for a speculative mega project like a space elevator or maglev system you won't have any firm figures to support you because they've never been built so there's no data on what their long term effects are.
 
  • #6


Ryan_m_b said:
Hmm given the economic focus it seems like your best bet would be to stick to something fairly established and known to be a good return on investment. Something like rail might be a good focus, if you try for a speculative mega project like a space elevator or maglev system you won't have any firm figures to support you because they've never been built so there's no data on what their long term effects are.

Even then, I guess I just have a way with words, and I'm sure I could do the proper convincing of mega projects if needed. The highspeed rail is typically shot down with the argument "look how much it cost china for just 30k of track! We need 250k, and we could not afford this with the current economy"
 
  • #7


Couldn't you argue against that point by examining the long term economic benefits? Ad perhaps looking at other HSR networks like those in Europe? I am skeptical of speculative megaprojects being easier to argue if HSR is so hard.

Do you have anything more than just the motion of the debate? If so perhaps you could post it, it might help narrow down viable suggestions.
 
  • #8


@blu3boy -- Congrats on winning state last year :smile: A space elevator definitely does not fit the subject statement. It isn't transportation infrasctucture in the US; it would be used to lift supplies and folks to space for exploration and experiment purposes.

Another subject you might consider that is getting a lot of press lately is the concept of "smart roads". When you put smart cars on smart roads, you can have them travel much faster and clower together in heavy traffic, easing the travel time burden. It may even be that cooperating smart cars may not need smart roads, but I'm not sure where the technology is at the moment. It would be easy for you to find plenty of articles with those search terms.

And one subtle point about the whole smart car/road concept, is the question of how do motorcycles fit in? Motorcycles don't have the ability to drive themselves (like smart cars do), so will they be prevented from riding during smart car periods (like commute times)?
 
  • #9


Ryan_m_b said:
Do you have anything more than just the motion of the debate? If so perhaps to could post it.


There is that general topic, but they're fairly lenient with what you can argue. I've downloaded all the representable files (the ones that don't completely suck)

The topics I can debate are as follows.

For the affirmative side there is

Human Powered Transport (self explanatory)

Air Traffic control (the control system. i.e we improve the GPS of planes so we can create more efficient pathways, etc.)

Overall Aviation Industry (faster, quieter jets.)

Bicycles (Self explanatory. The debate league decided to separate this from the human powered transport for some reason)

Buses (we invest in the bus system)

Climate (instead of investing directly in infrastructure development we invest in stopping the affects on climate on current infrastructure.)

Electric Vehicle investment

GPS investment

Investment in Highways

Investment in Hydrogen power infrastructure

Infrastructure bank (we create a bank primarily meant for loaning out to infrastructure development plans)

Inland waterway infrastructure

Mass Transit (essentially buses with a focus on buses in cities)

Port Security (arguably the most popular this year. We invest in the infrastructure of port security to prevent terrorist attacks.)

and then you have the default Highspeed Rail
 
  • #10


Ok cool. Another idea you might want to look into if you want something more techy is personalised rapid transport. There's many examples of experimental use around the world and the new Masdar city in the UAE is built around the concept.
 
  • #11


berkeman said:
@blu3boy -- Congrats on winning state last year :smile: A space elevator definitely does not fit the subject statement. It isn't transportation infrasctucture in the US; it would be used to lift supplies and folks to space for exploration and experiment purposes.

Another subject you might consider that is getting a lot of press lately is the concept of "smart roads". When you put smart cars on smart roads, you can have them travel much faster and clower together in heavy traffic, easing the travel time burden. It may even be that cooperating smart cars may not need smart roads, but I'm not sure where the technology is at the moment. It would be easy for you to find plenty of articles with those search terms.

And one subtle point about the whole smart car/road concept, is the question of how do motorcycles fit in? Motorcycles don't have the ability to drive themselves (like smart cars do), so will they be prevented from riding during smart car periods (like commute times)?

Thank you! That smart road idea is definitely interesting. Something I couldn't find from a quick search (mind you it was literally a 2 minute search session) was the cost. People are quick to argue that the current economy can't handle the burden of such roads. Do you have an estimate of how much it's cost? Like the cost of implementation in one particular area? I could do the math and find rough estimates of how much nationwide implementation would cost.

While I hate to admit it because I am essentially criticizing my peers - I would go so far as to say that not one of the people I've ever debate against could conceive of the motorcycle argument. So as far as I'm concerned - They don't ask about it, I don't tell them about it.
 
  • #12


Remember its not just cost you want to look at but ROI (return on investment). An opponent might well say "but to do that would cost $X billion!" but if you can turn around and show projections that the infrastructure will generate >>$X then you're on solid ground to win the argument.
 
  • #13


Ryan_m_b said:
Ok cool. Another idea you might want to look into if you want something more techy is personalised rapid transport. There's many examples of experimental use around the world and the new Masdar city in the UAE is built around the concept.

I looked up costs for that, and while it is a very interesting idea, it is estimated that it would cost $800,000 per mile, and at that price point it would cost 240 billion for about 300,000 miles of lines.

Assuming the best possible conditions - the price point is actually 800,000 to 22 million per mile
 
  • #14


Ryan_m_b said:
Remember its not just cost you want to look at but ROI (return on investment). An opponent might well say "but to do that would cost $X billion!" but if you can turn around and show projections that the infrastructure will generate >>$X then you're on solid ground to win the argument.

I'm sorry, I posted without reading that. Do you have projections for the ROI?
 
  • #15


I'm afraid I don't but I'd suggest doing some thorough research, there are many types of PRT after all. Also where does the 300,000 miles figure come from? If its the entire transport network of the US do you really have to focus on replacing all of it? Lastly its probably looking up where desperately needs or will need infrastructure development and compareing the costs. For instance, are there any examples of prominent infrastructure like city metros that need replacing soon for which it might be worth paying a bit more to get a better system?
 
  • #16
Ryan_m_b said:
I'm afraid I don't but I'd suggest doing some thorough research, there are many types of PRT after all. Also where does the 300,000 miles figure come from? If its the entire transport network of the US do you really have to focus on replacing all of it? Lastly its probably looking up where desperately needs or will need infrastructure development and compareing the costs. For instance, are there any examples of prominent infrastructure like city metros that need replacing soon for which it might be worth paying a bit more to get a better system?

The 300,000 is the number people typically bring up when discussing how much rail would need to be placed down if we were going to invest in the highspeed rail infrastructure plan. What I did with the port security last Saturday was say that investment would be made over the period of 10-20ish years and because of that, the costs would only be 500 million a year. But I find that with a figure as large as 240 to 1+trillion, it's hard to argue the same way. Maybe I could use the argument that we invest in URBAN infrastructure as opposed to nationwide infrastructure? I found this really great article just 20 minutes ago that says the United States would lose out on trillions of dollars if we don't invest now.

http://thinkprogress.org/economy/2013/01/15/1452811/infrastructure-jobs-hole/?mobile=nc
 
  • #17


Update following some research - I think the intelligent highway argument is near perfect. Over the course of 8 years, spending 157 billion will save 3.1 trillion in GDP, 1 trillion in trade, and 3.5 million jobs.
 
  • #18


You could also argue the reduction of the countrys reliance on oil for fuel (as rechargable electric cars can be charged from renewable sources) and the reduction in the cost of lives due to traffic accidents cannot be valued in dollars... Sustainability is paramount :)
 
  • #19


JustinRyan said:
You could also argue the reduction of the countrys reliance on oil for fuel (as rechargable electric cars can be charged from renewable sources) and the reduction in the cost of lives due to traffic accidents cannot be valued in dollars... Sustainability is paramount :)
Not to mention that electric cars are more efficient than their oil using counterparts.

Regarding putting a value on saved lives I agree its incalculable in human terms but if you have to reduce it to economics there probably is a great deal of statistics out there for how much non-fatal car accidents cost in terms of time off work and medical expenses. Not to mention that in the States 3000 people die every month in road traffic accidents. That's a 9/11 worth of people every 30 days. I don't necessarily condone putting it in such comparative terms but it could be useful for debate.
 
  • #20


Yea, I actually implemented the argument of a smart road that charges electric cars while they drive; (Found a Stanford study on it so its reliable) this means there is a much greater incentive to buy electric cars. On top of that, said roads would be SOLAR POWERED! I just thought it was amazing
 
  • #21
blu3boy said:
Update following some research - I think the intelligent highway argument is near perfect. Over the course of 8 years, spending 157 billion will save 3.1 trillion in GDP, 1 trillion in trade, and 3.5 million jobs.
That is 157 billion per year for 8 years.

Are you sure your GDP,trade and job 'quote' supports your argument for investment in an intelligent highway.
The study also mentions
The study projected the biggest funding gap, $877 billion, for highway and other surface transportation projects needed by 2020. But it also saw funding shortfalls of $629 billion for new electricity generation and transmission, $95 billion for airports, $42 billion for water and sewage and $14 billion for inland waterway and marine ports.
http://www.reuters.com/article/2013/01/15/us-usa-infrastructure-jobs-idUSBRE90E0RA20130115
Would any business venture dependant upon an infrastructure presently shortchanged on investment be satisfied with allocation of new funds or the transfer of existing funds to an technology unproven to aid in the transfer of goods and services.
Best you hope your opponents have not read the report.
 
  • #22


Doubtful, and looking up articles in middle of the debate is against the rules. On top of that - most articles that are given to us as the default arguments cut out the negative parts.

Example - One article talks about how port security is required, but the part that says that we don't have the resources to implement the plan is cut out.
 
  • #23


So I did not rattle you with a negative to your argument.
You must be quite at ease in a debate session, as presentation counts.
Appear flustered and your argumentative points loose value.
Good luck.
 
  • #24
256bits said:
So I did not rattle you with a negative to your argument.
You must be quite at ease in a debate session, as presentation counts.
Appear flustered and your argumentative points loose value.
Good luck.

Both sadly and augustly, debate is probably my strongest skill. Sadly because while I am passionate about it, I am more passionate about physics (something I find my skills are quite lackluster at compared to debate)

I know it's the effort, but after physics class last year, no matter how much I tell myself I will, I can't justify learning physics on my own time to myself because it feels like a waste. Just a little rant. Thanks for wishing me lck, haha.
 

1. How does a space elevator work?

A space elevator is a proposed transportation system that uses a very long cable (or ribbon) anchored to the Earth's surface and extending into space. The cable would be under tension, and a counterweight at the other end would keep the cable taut. Vehicles or cargo would travel up and down the cable using mechanical means, such as climbers or elevators.

2. What materials would be used to build a space elevator?

Currently, the most promising material for building a space elevator is carbon nanotubes. These are incredibly strong and lightweight, making them ideal for supporting the weight of a space elevator. However, more research and development is needed before they can be used in such a large-scale project.

3. How long would a space elevator be?

The length of a space elevator would depend on its starting point on Earth. It would need to be long enough to reach a geostationary orbit, which is about 36,000 kilometers above Earth's surface. This means the total length of the cable would be around 36,000 kilometers.

4. How much weight could a space elevator carry?

The weight capacity of a space elevator would also depend on the materials used. However, it is estimated that a space elevator could transport payloads of up to 20 tons at a time. This would greatly increase the efficiency of transporting goods and materials into space compared to traditional rockets.

5. What are the potential benefits of a space elevator for US transportation infrastructure?

A space elevator could greatly benefit US transportation infrastructure by providing a more cost-effective and sustainable way to transport goods and materials into space. It could also open up new opportunities for space exploration and commercial activities, such as space tourism and satellite launches. Additionally, a space elevator would reduce the reliance on traditional rockets, which are expensive and have a limited payload capacity.

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