10-16-2012, 08:57 PM | #91 | |
Elitist
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If so, sorry but I don't believe him. Dude was probably just psyched so much about the whole ordeal that he didn't remember the sensations. |
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10-16-2012, 08:58 PM | #92 |
Like Gixxxxer But Not
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At first I was like oh nice unreleased audio...Then I just laughed...I couldnt even imagine what he had going through his head.
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10-16-2012, 09:26 PM | #93 | |
I give Squids a bad name
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Believe what you want to beleive. If you feel that the countless time that physicists have put into the research and testing is wrong for the past 500 fuck it thousands of years, then believe what you want.
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10-16-2012, 09:35 PM | #94 | |
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If so, why exactly? My wikipedia quote shows that you don't need rushing air to make your body feel the effects of weightlessness. You were standing on the platform, creating the sensation of weight within your body, but then you jump, resulting in the cessation of that sensation. Not sure what else to say. Would a vacuum make the drop feel less dramatic? Sure, because of the lack of air rushing around you. But that doesn't mean you won't feel ANYTHING. |
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10-16-2012, 10:38 PM | #95 | ||
Hold mah beer!
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This is what I am saying... People feel weightless while falling. People also feel weightless in space. When the guy jumped out of the balloon, he would eventually feel weightless after the initial forces of exiting the balloon Falling weightless feeling guy does not have the sensation of falling, he feels weightless like he does in space due to falling in almost a vacuum, he is in a very low pressure and no air friction. He also is experiencing very little visual cues to verify he is getting closer to earth. All of this makes him feel weightless, but he is having a hard time discerning that he is actually falling at incredible speed. You can compare this to being in the space shuttle. Gravity is constantly pulling on these astronauts and they are moving at incredible speed around earth and through space in general, but yet they don't feel like they are moving at this incredible speed, they just feel weightless.
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10-16-2012, 10:56 PM | #96 |
Elitist
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I don't disagree with any of that, as long as you agree that he "feels" a change as soon as he steps off the platform. He feels a sudden shift from being fully weighted (at whatever G it was at 120K feet), to being weightless. That is a transition your body feels.
I originally called this feeling "falling" which is where you guys objected, because someone way up there isn't going to feel the wind or sound rushing by him. But while that is true, he is still going to feel the shift from weighted to weightless. I think all of us agree on that, but we are just arguing about which word to call it. Semantics really. |
10-16-2012, 11:27 PM | #97 | ||
Hold mah beer!
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Then he is going to go through that weird part of is he falling. Next was probably "OMFG I am spinning". Then he hits the air friction and its like stomping on the brakes really fin hard. Then he probably just has a normal parachute jump type feel.
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10-16-2012, 11:35 PM | #98 |
Viff6N Mutated Warrior
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If you watch the vid of the original dude doing it, he stated that he didnt feel like he was falling until he hit the atmosphere and felt/heard the wind.
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10-17-2012, 01:03 AM | #99 | |
I give Squids a bad name
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Here is how physics works in the very basic form. Imagine these are somewhat to scale and are vector quantities. Vector quantities have magnitude AND DIRECTION. If you are driving a car at 60mph that is the magnitude of your speed. If you are driving your car 60mph to the EAST that is a vector quantity. Now I'm going to use sideways arrows to demostrate and ask you to try this on your own. First part: Push against a wall in your home. Does it actually move (above very small scale)? If so, get a job in the NFL. Since the wall didn't move here is the force you put against the wall and the force the wall put against you. ----><---- Now add those together by putting the base of the right arrow onto the tip of the red arrow. Add those together and you get a vector quantity of 0. You are back where you started, nothing happend regardless of path. YOU DIDN"T MOVE. That's vector calculus. The force you push against the wall equals the negative force that the wall is pushing against you. Which by the way when you add those together in regards to velocity you get the change in velocity. For example ------> + <-- = ------> minus two dashes so your change in velocity is ----> Change in velocity is actually acceleration (change of velocity over change in time dv/dt). That is why acceleratin is done with second squared in the denomenator. You're changing speed by say 10m/s for every second of hcange in time. In this case, it's in the positive direction. Now you are pushing against Saturn V rocket that is parallel to the ground. Left arrow is you, right arrow is giant fucking rocket and the force it exerts -><----------------------------------------------------------------- (not to scale) Do you think that a Saturn V rocket is going to notice you being there? Is your presence pushing against the rocket going to slow it down? Maybe by 1/10000000000000000000000000000000000000000000000000 00000000000000000000000000000000000000000000000000 0000000 of a mph, but essentially zero. The rocket ship doesn't notice you there nor do the astronauts (your guts) on the inside or the molecules and energy blasting out the back side. If the rocket suddenly hit another bigger rocket, the astronauts would feel that (for a very short time and probably not long enough to register ot their brain). Now you are falling from space. Forget the jump part, let's just focus on the 1 minute where he was just falling in space. Now using the sideways arrows again we'll represent the left arrow as the force of the air pushing against the space jumper. <---------------------------------------------------------------------------------------------------------------------------------------------------------------------------. Where is the left arrow? It's not there! If you add the "two" vectors together you get 0 + -(other vector). That is the reason for constant acceleration. If want to determine the force of the vector, you multiply the two vectors together. Or more accurately use the dot product. vector(a:left arrow) dotted with vector(b:right arrow)= normal(which is the sqrt of the magnitude of the vectors) of both vectors times cosine of theta. Our theta in this case is 90degrees which equals 0. Vector A is = to zero which makes the dot product equal to 0, 2 times! Simpler 0*<---------------------(infinity) = 0. Back to A=F/m relative to the jumper. There is no force. So again, F=0/m = 0. No acceleration and that includes every molecule in his body. That's the math behind it.
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10-17-2012, 09:05 AM | #100 | |
moderator chick
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Poor Homie.
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