Flippy Gets Crushed
Flippy survives being crushed by a Grand Piano
Grand Pianos can weigh anywhere from 226 to 544 kg
Piano starts falling at 10:29:32 and lands at 10:31:16
1.84 seconds to fall
V = GxT
= 9.8 x 1.84
= 18.032 m/s
Low-End:
KE = 1/2M x V^2
= 1/2(226) x 18.032^2
= 113 x 325.15
= 36742.29 Joules, Wall level
High-End:
KE = 1/2M x V^2
= 1/2(544) x 18.032^2
= 272 x 325.15
= 88441.62 Joules, Wall level
As seen immediately after, he doesnt even have a scratch on him from this and was only briefly knocked out
Fliqpy Lifts a Log
Fliqpy is able to lift a large log over his head
We'll use an average of 1.7m for Flippy
1.7 / 245 = 0.0069 m/px
0.0069 x 239 = 1.6491 m
0.0069 x 737 = 5.0853 m
0.0069 x 305 = 2.1045 m
Volume of a Cylinder = πr^2h
= π(0.82455)^2(5.0853)
= 10.86 m^3
Volume of a Cone = πr^2(h/3)
= π(0.82455)^2(2.1045/3)
= 1.5 m^3
Volume of the log = 12.36 m^3
From the scene at 1:02 its likely that the tree Flippy used is of the same species, which has the appearance of oak trees, so we'll use that as our density.
Density of fresh Oak Wood is 900 kg/m^3
12.36 x 900 = 11124 kg
Since the log is suspended by a rope Flippy doesn't hold the full weight of it. Because of this I need to multiply mass of the log by cosine of angle of the rope. So:
cos = (80/132) = 0.61
11124*0.61 = 6785.64 kg, Class 10
Stronk bear
Now he was also hit by this log on the backswing of it busting a hole through Lumpy's trailer. To calculate durability we need to use KE using speed of the log and mass of the Flippy. Since Flippy weights much less than the log he doesn't take the full force of the collision.
We'll use the average weight for a man, 88.768027 kg
.0069 x 578 px = 3.9882 m
This distance was traveled in .01 seconds, making the speed 398.82 m/s
KE = 1/2M x V^2
= 1/2(88.768027) x 398.82^2
= 7059605 Joules, Wall level
Fliqpy Tanks an Explosion
Survived being in close proximity to Mouse Ka-Boom's explosives
Flippy is 1.7 m
1.7 / 352 = .0048 m/px
.0048 x 503 = 2.4144 m
2.4144 / 20 = 0.12072 m/px
0.12072 x 107 = 12.91704 m
0.12072 x 208 = 25.10976 m
Radius of the explosion = 12.55488 m
W = R^3*((27136*P + 8649)^(1/2)/13568 - 93/13568)^2
W is yield in tons of tnt, R is radius in meters, and P is pressure of the shockwave in bars, the standard overpressure is 20 psi or 1.37895 bars.
W = 12.55488^3*((27136*1.37895 + 8649)^(1/2)/13568 - 93/13568)^2 = .159 Tons, or 6.6526e+8 Joules, Small Building level+
Ah, much better
Fliqpy Tanks Another Explosion
Survived a crash which destroyed a large log
Flippy is 1.7 m
1.7 / 451 = .0037 m/px
.0037 x 525 = 1.9425 m
1.7 / 175 = .0097 m/px
.0097 x 289 = 2.8033 m
Volume of a Cylinder = πr^2h
= π(0.97125)^2(2.8033)
= 8.3 m^3 = 8.3e+6 cm^3
Since this appears to be either vaporization or Vfrag, we'll use the heat of combustion of wood as a high end and Vfrag as a low end
vfrag of wood is 18.34 j/cm^3
8.3e+6 x 18.34 = 1.52222e+8 Joules, Small Building level
Now for the fun one
1 cord = 3.62456 m^3
8.3e+6 cm^3 = 2.28994 cord
Heat of combustion of oak wood = 24000000 BTU/cord
24000000 x 2.28994 = 54958560 BTU
54958560 BTU = 57984350380 Joules, City Block level
Final Tally
Flippy Gets Crushed (Low-End): 36742.29 Joules, Wall level
Fliqpy Gets Crushed (High-End): 88441.62 Joules, Wall level
Fliqpy Lifts a Log: 6785.64 kg, Class 10
Fliqpy gets Hit by Log: 7059605 Joules, Wall level
Fliqpy Tanks an Explosion: 6.6526e+8 Joules, Small Building level+
Fliqpy Tanks Another Explosion (Low-End): 5.727e+8 Joules, Small Building level
Fliqpy Tanks Another Explosion (High-End): 57984350380 Joules, City Block level