Random intoxicated question, the surface gravity on earth is 9.798 meters/square second. Jupiter and Saturn are 10.44 and 11.15 respectively, if in the future we were to be able to quickly and efficiently travel between these planets and live on them, when you returned to earth how much stronger would you be reverting to a place with less gravity? Can anyone math this shit up?
dbz isn't real life
>>8995009
>can anyone maths this shit up
No
>>8995010
Never watched dragon ball. Just was thinking that if you were living in that environment everything would be heavier causing even simple activities like standing up to put more stress on your muscles. Eventually when your body adjusted and you'd come back to earth you'd have to be much stronger and capable of jumping higher or running faster
>>8995012
I'm sure there's got to be someone who could use a random generic weight of a male at a average height and build and take that times the gravity to figure out how much they'd weight on that planet and then figure out what their body would get use to and if they exerted the same amount of force back on earth how it would play out
>>8995015
You would probably develop fractures in your bones more frequently, your blood pressure would be high, and your spinal discs would be compressed continuously.
>>8995022
I could see how that all could happen. Your heart would be forced to work harder and you'd have to be in excellent shape to last long.
>>8995009
You'd get crushed by the pressure in the atmosphere.
>>8995015
>Never watched dragon ball
For some reason, I find it unbelievable.
>>8995009
I may be retarded but where tf you getting 9.798 from?
>>8995009
Carry a 100lb backpack around everywhere you go for a year or two. When you finally take it off can you jump higher?
>>8998261
Denver
We can test this as soon as we get some habitats rotating in orbit with variable speed.