902 research outputs found
Absence : Makes the Heart Grow Fonder
https://digitalcommons.library.umaine.edu/mmb-vp/5987/thumbnail.jp
California Sunset
https://digitalcommons.library.umaine.edu/mmb-vp/4998/thumbnail.jp
The linking homomorphism of one-dimensional minimal sets
AbstractWe introduce a way of characterizing the linking of one-dimensional minimal sets in three-dimensional flows and carry out the characterization for some minimal sets within flows modelled by templates, with an emphasis on the linking of Denjoy continua. We also show that any aperiodic minimal subshift of minimal block growth has a suspension which is homeomorphic to a Denjoy continuum
At The Coffee Cooler\u27s Tea
https://digitalcommons.library.umaine.edu/mmb-vp/4852/thumbnail.jp
I Can\u27t See The Good In Good-bye
https://digitalcommons.library.umaine.edu/mmb-vp/5947/thumbnail.jp
A4_7 Supermassive (Interstellar) Black Hole
This paper considers the plausibility of an event from the 2014 film Interstellar. It states that an hour on a planet orbiting a supermassive back hole is equivalent to 7 years passing on Earth. Calculations made state that the planet is inside the minimum orbit for a planet around a black hole and would thus fall with a ballistic trajectory into the centre.However, a static system was assumed, so with an optically spinning black hole the planet may be in a stable orbit. A spacecraft orbiting at a distance unaffected by time dilation is also considered and found to be largely implausible
A4_1 It's a-me Density!
This paper considers the composition of small scale planets as seen in the video game Super Mario Galaxy. With an approximate radius for these planets set at 50m, the required density to maintain Earth-like surface gravity is calculated and compared to known super-dense structures such as white-dwarfs. The stability of such a planet is then discussed and it is concluded that it would likely explode due to the severe imbalance of gravitational pressure to degeneracy and coulomb pressures
A4_4 Deeper Than Any Elephant Has Gone Before
 In this paper, the depth of an Olympic size swimming pool required to crush an elephant is calculated. The depth of the swimming pool required to half the volume of an elephant was calculated to be 1.02 x 106 m (1020km) equivalent to a pressure of 1.004 x 1010 Pa (approximately 100000 times that of atmospheric pressure). Although this is an overestimate, it shows the strength of bone
A4_3 The Human Barbecue
This paper considers the feasibility of the Human Torch, calculating the energy taken to turn a human body to plasma, generate a large amount of heat for long periods of time, and how much food would need to be consumed to provide the necessary energy. Johnny Storm's secondary power of absorbing thermal energy from his surroundings is also calculated as another way of fuelling his flames
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