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All / Fat Furs
Species Dinosaur
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More from purpletophatter
Ohgodhessohuge D:
AND WHERE ARE THOSE CLOTHES! COVER UP THAT INDECENCY!
I suppose even the latest in waistband sciences could not hold in the corpulent raptor thing. Oh well. Looks like he's meeting this winter full force, and based on his size, I'd say there's plenty of force within his blobby body (Force = Mass * Acceleration...lol physics).
Doesn't seem like there's any more bread, but I don't think he needs any more.
Hope these three pics hold you guys over until I can once again start contributing more.
AND WHERE ARE THOSE CLOTHES! COVER UP THAT INDECENCY!
I suppose even the latest in waistband sciences could not hold in the corpulent raptor thing. Oh well. Looks like he's meeting this winter full force, and based on his size, I'd say there's plenty of force within his blobby body (Force = Mass * Acceleration...lol physics).
Doesn't seem like there's any more bread, but I don't think he needs any more.
Hope these three pics hold you guys over until I can once again start contributing more.
Category All / Fat Furs
Species Dinosaur
Size 1280 x 771px
File Size 67.3 kB
Hopefully so...Scientists predict this to be the coldest winter in 1000 years, which sucks, because my house has no heat. :(
Oh well. I can remain comfortable, and in shorts to temperatures as low as 40 degrees (about 2 degrees Celsius =) but after that I get sorta cold, and need to wear thick clothes.
Oh well. I can remain comfortable, and in shorts to temperatures as low as 40 degrees (about 2 degrees Celsius =) but after that I get sorta cold, and need to wear thick clothes.
'...For now' is a great ending, as it allows for future sequels (though this was just some quick little series I wanted to spit out)
Also, though he's not moving, the surface below him is experiencing a force, as the gravitational force = gravitational constant * mass 1 (in this case, the mass of the earth) * mass 2 (In this case, the raptor thing, so lots), all divided by the distance between the two squared.
In this case, when the distance is negligible, we use the familiar 9.81 m/s^2 constant of Earth (32 feet/s^2, for my non-metric friends) multiplied by the mass of the object in question (In this case, the raptor thing.)
But yes, his level of comfort far exceeds my own this winter, as, alas, I have an average body mass for someone of my height.
Also, though he's not moving, the surface below him is experiencing a force, as the gravitational force = gravitational constant * mass 1 (in this case, the mass of the earth) * mass 2 (In this case, the raptor thing, so lots), all divided by the distance between the two squared.
In this case, when the distance is negligible, we use the familiar 9.81 m/s^2 constant of Earth (32 feet/s^2, for my non-metric friends) multiplied by the mass of the object in question (In this case, the raptor thing.)
But yes, his level of comfort far exceeds my own this winter, as, alas, I have an average body mass for someone of my height.
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