TheRiov wrote:
Müs wrote:
TheRiov wrote:
We can prove and even replicate the effects on a small scale. Why is it so incomprehensible that those effects apply on the large scale?
Because Mythbusters proves sometimes that not all effects scale properly.
This is easily the most idiotic statement anyone has made in a while.
A) I already pointed out about 3 posts back this exact fact, but such statements more often apply when you shift scale from quantum mechanics to classical mechanics.
B) Check your logic. Just because things SOMETIMES don't scale, does NOT mean they Never scale, or even that they don't ALMOST ALWAYS scale
No, it's you that needs to check your logic. They don't "almost always" scale, and even if they did, you would need to show that they do scale in this case.
In fact, with physical systems, effects rarely scale over large changes in size (i.e. more than an order of magnitude) and often do not scale over far smaller increases.
For example, a proposed set of capabilities for a replacement strategic bomber would have it capable of mach 2, weighing 250,000 to 300,000 pounds, with a 15-20,000 pound payload and a 3,250 mile range, and requiring support from 37-40% of the current tanker fleet.
To compare, a B-52 has a range of about 8,800 miles unrefuelled, with comparable loaded weight, with a maximum of 70,000 pounds of bombs. It's maximum speed is 650 miles per hour; about half the proposed bomber's speed depending on what altitude we mean mach 2 at.
Despite comparable weight, doubling the speed means a requirement to reduce the payload by a factor of about 3.5 to 4
and the range by a factor of just under 2.5. In order to get the same range as a B-52 you would actually need
more tankers because the weight of the extra fuel needed to haul the fuel
itself around would mean a major increase in the amount of fuel needed to be carried; to increase range by 2.5 would require considerably more than 2.5 times the amount of fuel.
If you wanted the aircraft to have the B-52s payload and range at mach 2, you would need an aircraft in excess of 95,000
tons, or the size of an aircraft carrier. Think of the runway such a beast would need, the maintenance, the crew, the cost, etc in order to get a bomber that carries what a B-52 does just as far but twice as fast. That's assuming this leviathan could be made to fly and land safely
at all.
Designing even a large aircraft like a strategic bomber is far less complex than analyzing the how the earth retains heat and how its climate works, but more to the point, things do not scale well in large, complex systems of
any kind. Making a fairly small change in the above-mentioned criteria would mean a huge change in weight and cost and a cascading change in requirements outside the aircraft to support it. It's the same way with climate only far more so because we aren't controlling the variables and there are a hell of a lot more of them.
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