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gnorcs: pleiadic: gnorcs: why are mini m&ms so much better than normal m&ms because there’s this thing called the square-cube law (x) which basically says that as volume decreases, so does the surface area, but not as quickly (by the square

gnorcs: pleiadic: gnorcs: why are mini m&ms so much better than normal m&ms because there’s this thing called the square-cube law (x) which basically says that as volume decreases, so does the surface area, but not as quickly (by the square

gnorcs: pleiadic: gnorcs: why are mini m&ms so much better than normal m&ms because there’s this thing called the square-cube law (x) which basically says that as volume decreases, so does the surface area, but not as quickly (by the square

gnorcs: pleiadic: gnorcs: why are mini m&ms so much better than normal m&ms because there’s this thing called the square-cube law (x) which basically says that as volume decreases, so does the surface area, but not as quickly (by the square

gnorcs: pleiadic: gnorcs: why are mini m&ms so much better than normal m&ms because there’s this thing called the square-cube law (x) which basically says that as volume decreases, so does the surface area, but not as quickly (by the square

gnorcs: pleiadic: gnorcs: why are mini m&ms so much better than normal m&ms because there’s this thing called the square-cube law (x) which basically says that as volume decreases, so does the surface area, but not as quickly (by the square

gnorcs: pleiadic: gnorcs: why are mini m&ms so much better than normal m&ms because there’s this thing called the square-cube law (x) which basically says that as volume decreases, so does the surface area, but not as quickly (by the square

gnorcs: pleiadic: gnorcs: why are mini m&ms so much better than normal m&ms because there’s this thing called the square-cube law (x) which basically says that as volume decreases, so does the surface area, but not as quickly (by the square

gnorcs: pleiadic: gnorcs: why are mini m&ms so much better than normal m&ms because there’s this thing called the square-cube law (x) which basically says that as volume decreases, so does the surface area, but not as quickly (by the square

gnorcs: pleiadic: gnorcs: why are mini m&ms so much better than normal m&ms because there’s this thing called the square-cube law (x) which basically says that as volume decreases, so does the surface area, but not as quickly (by the square

gnorcs: pleiadic: gnorcs: why are mini m&ms so much better than normal m&ms because there’s this thing called the square-cube law (x) which basically says that as volume decreases, so does the surface area, but not as quickly (by the square

gnorcs: pleiadic: gnorcs: why are mini m&ms so much better than normal m&ms because there’s this thing called the square-cube law (x) which basically says that as volume decreases, so does the surface area, but not as quickly (by the square

gnorcs: pleiadic: gnorcs: why are mini m&ms so much better than normal m&ms because there’s this thing called the square-cube law (x) which basically says that as volume decreases, so does the surface area, but not as quickly (by the square

gnorcs: pleiadic: gnorcs: why are mini m&ms so much better than normal m&ms because there’s this thing called the square-cube law (x) which basically says that as volume decreases, so does the surface area, but not as quickly (by the square

gnorcs: pleiadic: gnorcs: why are mini m&ms so much better than normal m&ms because there’s this thing called the square-cube law (x) which basically says that as volume decreases, so does the surface area, but not as quickly (by the square

gnorcs: pleiadic: gnorcs: why are mini m&ms so much better than normal m&ms because there’s this thing called the square-cube law (x) which basically says that as volume decreases, so does the surface area, but not as quickly (by the square

gnorcs: pleiadic: gnorcs: why are mini m&ms so much better than normal m&ms because there’s this thing called the square-cube law (x) which basically says that as volume decreases, so does the surface area, but not as quickly (by the square

gnorcs: pleiadic: gnorcs: why are mini m&ms so much better than normal m&ms because there’s this thing called the square-cube law (x) which basically says that as volume decreases, so does the surface area, but not as quickly (by the square

gnorcs: pleiadic: gnorcs: why are mini m&ms so much better than normal m&ms because there’s this thing called the square-cube law (x) which basically says that as volume decreases, so does the surface area, but not as quickly (by the square

published on: 2014-12-03 13:02:10

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