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Shrubs and flowers grow and flourish at different rates and it's this property that is taken advantage of in the idea named Einstein's Raised Beds.
The idea is simple: to plant a range of flowers that display some well known mathematical equations that take the form of strong graphic numeral and
letter shapes.
During the yearly season's cycle, the solution to the equations gradually emerges as brightly coloured late season flowers and leaves.
Magical_20latent_20image_20fruit_20knife
[hippo, Apr 29 2021]
Latent_20etiolation_20messages
[hippo, Apr 29 2021]
Eerily_20prescient_20fortune_20cookies
[hippo, Apr 29 2021]
https://en.wikipedi...iki/Forest_swastika
[pocmloc, Apr 29 2021]
Graph Edge Colouring
https://en.m.wikipe.../wiki/Edge_coloring
[xenzag, Apr 29 2021]
using genes to do logic: Gene Logic
https://science.sci...ontent/340/6132/599
We realized permanent amplifying AND, NAND, OR, XOR, NOR, and XNOR gates actuated across common control signal ranges and sequential logic supporting autonomous cell-cell communication of DNA encoding distinct logic-gate states. The single-layer digital logic architecture developed here enables engineering of amplifying logic gates to control transcription rates within and across diverse organisms. [beanangel, Apr 29 2021]
Slime Moulds
https://www.discove...eplica-tokyo-subway
[xenzag, Apr 30 2021]
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Annotation:
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Is this basically a floral graphic which cross-fades from the
equation to the solution, over a period of some months? |
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I think so - it would be a lovely way to reveal the solution
if you'd just solved some historic, famous problem in
mathematics |
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//Is this basically a floral graphic....? // Yes it is. |
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I really like this - it's practical, wouldn't be that hard to
implement, and has a pleasing surprise factor. Thinking
about it, I realised that I keep posting 'hidden message'
ideas (see links) which probably explains why I like it.
If you were a disgruntled gardener, it would be
pretty easy to plant seeds spelling out offensive insults to
your employer and then resign, knowing that the insults
would appear some months later. |
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I was hoping that the planting would demonstrate the equations more viscerally, for example by growing at certian rates so the ratios between adjecant plants would be... um... |
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Well, when you do your plantings, you can create
whatever equations you want. Have a go at
Goldberg's Conjecture. |
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Possibly not if you use Graph Edge Colouring to
solve (see link) |
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If your garden was nearly infinitely big, it should be possible to turn
the planting in a garden into a Turing machine. Then you could use
your garden to compute any computable problem, which would be
cool |
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well it sounds very nice, but what flowers would
you use that could display a mathematical
equation? I’m not exactly sure how that would
show up… |
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It doesn't matter what flowers you use, as long as
they are planted in a shape that only becomes
recognisable when they bloom. |
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I see, just a pattern made of flowers, not the
flower itself. You had me wondering if the flower
would show the equation somehow. |
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What about getting plants to actually solve equations? As a
slow computer, but one that doesn't require working with
silicon at nano-scales. The interface may be a little
complicated to figure out. |
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Yeah, I was rather hoping that this would make more use of
the plants' internal mathematics: things like the fibonacci
sequence appearing in successive rings of petals, and plant
growth rates being a function of ... other things, and
bindweeds describing spirals, and trees representing tree
structures. That sort of thing. |
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//Yeah, I was rather hoping....// Just write it up
and post it now that you see the light. I wanted to
create something that could actually be
constructed and realised, albeit with a lot of
careful planning and effort. I'm sure, just like the
monkeys with their Shakespeare generating
typewriters, that given enough plants,
configurations and time, Fermat's last theorem
would magically be solved in a greenhouse. Magic
solves all problems. |
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Like I said above, a Turing machine implemented in gardening
needs a near-infinite sized garden |
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Slime moulds have been proven to have a superior
problem solving ability within a system. (Look up
slime mould learning the most efficient way to
navigate the Tokyo underground - (link) I'm sure
someone
could construct a slime mould computer. |
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