by C_Roundy » Thu Feb 10, 2011 8:07 am
Hi, guys, I was just compelled to register here at SA* for starters specifically to see what the brain trust here is doing to vanquish this burning question. I read through the whole thread where it initially came up over on "RC Universe" forum, and obviously the guys over there are um, fairly far removed from being physicists... But, from your posts on the subject here, I feel intuitively that you guys are missing some of the fundamental principles involved too.
Can anyone here prove to me that the variables I specify in my post over there are not centrally relevant, and or framed incorrectly?
Thanks, Chuck
My original post follows,Quote:
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Just read the whole thread, awsome! Even if you work the numbers to accurately predict the results of variations on this experiment,
(like the Japanese already have before deciding to go ahead and actually fund the experiment), the main range of responses guys have posted still teach an awful lot about the prevalence of certain misconceptions in popular culture!
Example: Assuming a stable orbit at launch that is lower and therefore faster than geo-synchronous, and only slight velocity changes imparted by the launch (like we're talking about here), orbital mechanics 101, or even basic physics shows that:
>Launching inward takes you forward from your launch vehicle's trajectory (not down).
>Launching outward takes you backward.
>Launching forward takes you outward.
>Launching backward takes you inward.
Only 2 or 3 guys out of the first 48 posts seemed to understand this!
Now, here is a little tidbit that may help open the minds of the guys who jump to the "its gonna burn up / blow apart of course" conclusions instead of managing to actually think it through successfully.
>Picture said balsa (or paper etc) airplane having only the mass of one atom instead of one ounce. Our heroic astronaut throws it backward to start its historic journey back down to the rest of our artfull, brilliant tribe of balsa and paper airplane throwing monkeys. Our cutting edge, high tech test vehicle hurtles along at the obligatory bazillion mph forward, and say, a mind blowing 50 mph downward. After a relatively short period (on a scale compared to the age of universe) in which humanity watches Superbowl commercials, eats popcorn, watches paint dry, and takes a nap, eventually our hotrod collides brutally with a whopping atmospheric density of ONE atom per cubic yard, then miles deeper into our gravity well, one atom per cubic foot, miles still further inward, one per cubic inch etc.
Nothing that is not made of unobtanium could possibly survive this kind of soul crushing torture test right?
OH, Wait! I totally forgot! the first atom it hit absorbed half its kinetic energy, and cut its speed by half! (forgive me, I'm assuming it really centerpunched that evil mother'), and again with the next atom, and the next etc.
Now..., can some more of us guys glimpse the deeper understanding that there IS a directly proportional relationship between the re-entry vehicle's [[mass divided by cooling surface area] multiplied by drag coefficient], and how much kinetic heating is caused by re-entry; and consequently whether or not any heat shielding is required to survive the mission?
Really, the main thing left to do is a proper set of engineering calculations to determine exactly what numerical constant (compound ratio) we need to beat for a given re-entry trajectory, to shed heat fast enough to stay under a given material's maximum allowable temperature,
and the Japanese have already done that... They decided to fund the experiment, the principle actually has far reaching potential to lower vehicle and thusly mission costs .............
Remember boys and girls, your mind is a muscle, so always do some stretching before you think you can power lift without hurting yourself!
Best regards to all, Chuck Roundy
Hi, guys, I was just compelled to register here at SA* for starters specifically to see what the brain trust here is doing to vanquish this burning question. I read through the whole thread where it initially came up over on "RC Universe" forum, and obviously the guys over there are um, fairly far removed from being physicists... But, from your posts on the subject here, I feel intuitively that you guys are missing [i]some[/i] of the fundamental principles involved too.
Can anyone here [u]prove[/u] to me that the variables I specify in my post over there are not centrally relevant, and or framed incorrectly?
Thanks, Chuck
My original post follows,[b]Quote:[/b]
---------------------------------------------------------------------------------------------------------------------------------------------------------------------
Just read the whole thread, awsome! Even if you work the numbers to accurately predict the results of variations on this experiment,
(like the Japanese already have before deciding to go ahead and actually fund the experiment), the main range of responses guys have posted still teach an awful lot about the prevalence of certain misconceptions in popular culture!
Example: Assuming a stable orbit at launch that is lower and therefore faster than geo-synchronous, and only slight velocity changes imparted by the launch (like we're talking about here), orbital mechanics 101, or even basic physics shows that:
>Launching inward takes you forward from your launch vehicle's trajectory (not down).
>Launching outward takes you backward.
>Launching forward takes you outward.
>Launching backward takes you inward.
Only 2 or 3 guys out of the first 48 posts seemed to understand this!
Now, here is a little tidbit that may help open the minds of the guys who jump to the "its gonna burn up / blow apart of course" conclusions instead of managing to actually think it through successfully.
>Picture said balsa (or paper etc) airplane having only the mass of one atom instead of one ounce. Our heroic astronaut throws it backward to start its historic journey back down to the rest of our artfull, brilliant tribe of balsa and paper airplane throwing monkeys. Our cutting edge, high tech test vehicle hurtles along at the obligatory bazillion mph forward, and say, a mind blowing 50 mph downward. After a relatively short period (on a scale compared to the age of universe) in which humanity watches Superbowl commercials, eats popcorn, watches paint dry, and takes a nap, eventually our hotrod collides brutally with a whopping atmospheric density of ONE atom per cubic yard, then miles deeper into our gravity well, one atom per cubic foot, miles still further inward, one per cubic inch etc.
Nothing that is not made of unobtanium could possibly survive this kind of soul crushing torture test right?
OH, Wait! I totally forgot! the first atom it hit absorbed half its kinetic energy, and cut its speed by half! (forgive me, I'm assuming it really centerpunched that evil mother'), and again with the next atom, and the next etc.
Now..., can some more of us guys glimpse the deeper understanding that there IS a directly proportional relationship between the re-entry vehicle's [[[u][size=150]mass divided by cooling surface area] multiplied by drag coefficient[/size][/u]], and how much kinetic heating is caused by re-entry; and consequently whether or not any heat shielding is required to survive the mission?
Really, the main thing left to do is a proper set of engineering calculations to determine exactly what numerical constant (compound ratio) we need to beat for a given re-entry trajectory, to shed heat fast enough to stay under a given material's maximum allowable temperature,
and the Japanese have already done that... They decided to fund the experiment, the principle actually has far reaching potential to lower vehicle and thusly mission costs .............
Remember boys and girls, your mind is a muscle, so always do some stretching before you think you can power lift without hurting yourself!
Best regards to all, Chuck Roundy