I guess it's not a very educated question, but I never quite understood why spacecrafts have to shoot up and can't just reach space by simply continuing an upwards ascent like an airplane.
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Aircraft rely on lift generated by interacting with the atmosphere and on using atmospheric oxygen to burn with fuel they carry. Orbits aren't stable until you are high enough that there isn't enough atmosphere to interact with, and long before that the oxygen content drops too low to be useful. So, to get to a stable orbit, you will need rockets eventually. Areospace types keep looking at hybrids (air breathing, lift generating while down low then switch to rockets as you get really high) because it does seem like a good idea, but so far the added complexity hasn't paid. Either the switching gear weighs too much, or the extra equipment adds too much risk of failure. Maybe in the future. |
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The Wikipedia page on Spaceplanes should answer all the questions you've asked. |
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It's because spacecraft are not generally designed to immediately start returning to the Earth once its fuel has run out, but to have reached the escape velocity of 11.2 kilometers per second at this point. It's then able to orbit the Earth continuously without having to use further fuel in the ideal case, as an example. |
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In short - A rocket works by exchanging momentum, AND at present airplanes simply do not have the ability to exchange enough momentum. In a rocket - Both the mass of the propellant as well as the high velocity of its exit from the engine system gives the rocket its momentum to propel itself into space. The propellant (fuel) attains its velocity by burning with an oxidizer in a high-pressure chamber creates a high energy exhaust which then funneled through a nozzle. This velocity, coupled with the right mass properties of the propellant, provides the power, or energy, required to get the vehicle into space. An airplane on the other hand requires air drag and lift to propel itself off of the ground... and when the atmosphere is to thin ... it cannot exchange momentum. The US Airforce has been working with space planes - however due to the design they still need a ROCKET to lift them up into space. Pretty cool stuff - if you want some extra reading... |
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For what it's worth, even though a rocket starts its flight going straight up, once it has traveled through most of the atmosphere it soon starts to change its direction so that it spends most of its flight accelerating in the "around the earth" direction (i.e. basically horizontal). Also, to reach orbit a vehicle either has to reach a high enough speed, or a high enough altitude, or a high enough combination of speed plus altitude. A gun firing a bullet horizontally at 20,000mph would do the trick. Or, dropping a ball from 20,000 miles altitude would also work. Neither of these are practical altitude/velocity combinations. On to your question. There isn't any fundamental physical reason why an "airplane" can't fly into space. A relevant definition here of "airplane" would be a vehicle that:
Note that both an airplane and a rocket generate their thrust from exactly the same physical principle - by accelerating and ejecting some mass. The reasons that you don't see an aircraft-like vehicle accelerate and climb its way into space are practical engineering reasons, not fundamental physical limitations. Here is a hypothetical "airplane to orbit" concept that the laws of physics would allow:
Now here are some of the practical impediments to this actually being a buildable vehicle:
EDIT to add: more advanced discussions can be found at the "Selenian Boondocks" blog; start with the post "Part I : Air Launched SSTO" in the Orbital Access Methodologies section. |
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http://en.wikipedia.org/wiki/Pegasus_(rocket) |
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I looked up this somewhat cheezy Disney clip from the 1950s. It features a spaceplane idea, but alas the plane takes off like a rocket. http://www.youtube.com/watch?v=rBgkrhnThek There are some reasons why you generally want rocket flight. In a vertical ascent you quickly clear the atmosphere. Within 90 seconds into rocket flight you are above 90% of the air. Air has friction and is generally not that much help in lifting you far. Aircraft can fly at a maximum of about 30,000m, and for orbital flight you have to go much further than that. It is possible that ramjets or scramjets could be placed on a rocket. Once it reaches supersonic these could kick in and provide thrust without the need to carry an oxidant until you reach about 50.000m. The flight envelopes of modern combat aircraft reflect the safety limit. If you fire up the aferburners and go near vertical you will reach the “edge of space.” Of course the engines flame out and your descent will be violent and deadly. The business of spaceplanes is largely a load of BS. These ideas keep surfacing now and then, and fortunately we have not yet spent billions on such a worthless program. |
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The highest altitude recorded for a jet airplane is just over 100,000 ft in round numbers. To attain low earth orbit you would need to reach about 100 miles in altitude or about 520,000 ft. As you can see a jet would only take you about 1/5th of the way up and you would need to switch to a rocket propulsion due to the lack of oxygen. My guess is that switching from a regular airplane/jet to rocket propulsion is an additional complication which might make it more expensive then just using rocket propulsion. |
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The problem has to do with the presence of air. Planes need the air for 2 reasons: oxidizer for the fuel they carry to generate thrust and drag on the wings to produce lift. No air, no thrust, no lift, no flying. So obviously, you can only fly so high until you start running out of air. Rockets need to go higher than this and so they are built to do without air. They carry their own oxidizer+fuel combination (in whichever form, solid, liquid) and actually these propellants take up a lot of volume (see the huge tanks on the Space Shuttle). Which is a problem because the rocket has to go through the thick air and there, it generates a lot of drag and rockets don't need drag to fly ! So the rocket wants to go through the thick atmosphere as quickly as possible which means shooting up. |
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