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- Id: 90317
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Posted: 2020-01-27 10:35:47
by droidmaster3000 - Size: 994x723
- Source: droidmaster3000
- Rating: Questionable
- Score: 108 (vote up)
>> #353526
Score: 1 (vote Up)
>> #353541
Score: 1 (vote Up)
Where did it go?
In accordance with conservation of energy, the mass must have turned into some other form of energy. To find out how much mass was converted, we first need to count the amount of pixels the brain takes up in the first image (4917), and how many it takes up in the second (306). Then, we can calculate the relative amount the cross-sectional area of the brain has shrunk by, through simple division. Due to the square-cube law, the amount by which the volume has decreased will be equal to the cube of the square root of the relative shrinking in area. Thus, we find that ~1.55% of the brain remains.
The average mass of an adult brain is ~1.35kg. This, multiplied by the 98.45% of the brain that has turned into energy, we know that about 1.34kg of brain has been converted. E=mc^2 tells us that this amount of energy is equal to about a half of a tsar bomba.
'<<www.dymocks.com.au/book/w...dall-munroe-9781848549562|What If?>>' is a good read and a bad influence.
>> #353545
Score: 1 (vote Up)
In accordance with conservation of energy, the mass must have turned into some other form of energy. To find out how much mass was converted, we first need to count the amount of pixels the brain takes up in the first image (4917), and how many it takes up in the second (306). Then, we can calculate the relative amount the cross-sectional area of the brain has shrunk by, through simple division. Due to the square-cube law, the amount by which the volume has decreased will be equal to the cube of the square root of the relative shrinking in area. Thus, we find that ~1.55% of the brain remains.
The average mass of an adult brain is ~1.35kg. This, multiplied by the 98.45% of the brain that has turned into energy, we know that about 1.34kg of brain has been converted. E=mc^2 tells us that this amount of energy is equal to about a half of a tsar bomba.
'<<www.dymocks.com.au/book/w...dall-munroe-9781848549562|What If?>>' is a good read and a bad influence.
Or, and stay with me here, the mass was transferred from her brain to her breasts. The amount of mass of the brain in the image would be feasible to transfer to their new location and even redistributed evenly throughout her body if that isn't the case. After all we can't tell her height, weight, or bust clearly enough to say that this isn't the case.
>> #353615
Score: 0 (vote Up)
Or, and stay with me here, the mass was transferred from her brain to her breasts. The amount of mass of the brain in the image would be feasible to transfer to their new location and even redistributed evenly throughout her body if that isn't the case. After all we can't tell her height, weight, or bust clearly enough to say that this isn't the case.
Yeah, but that solution doesn't include anywhere near half a tsar bomba of explosive force, and that's no fun at all.
>> #353871
Score: 1 (vote Up)