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Thistle Guide

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Revision as of 00:55, 22 October 2010 by T5 Import (talk | contribs) (Basic thistle guide for Tale 5)
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Overview

One thistle seed is used per planting, and water, dung, and saltpeter can be added at various times throughout the growing process to help produce the desired type of vitamins.

The growing period is 40 ticks of 10 teppyseconds each, so thistles take roughly 8 minutes per batch to grow. The yield is 5 thistles of varying vitamin levels and 2 seeds. Only the vitamins present in tick 40 determine the final result. Aborting the process early yields no thistles or seeds.

The three symbols used to represent vitamins levels are:

- Low ≤ 20
~ Average > 20, < 80
+ High ≥ 80

So a Thistle: A-B+C-F+N~P~T- is produced when the batch finishes with 80+ Bio and Fol, 20- Asc Car and Thi, and levels of Nia and Pyr somewhere between 21 and 79. The exact numbers do not matter for the final product: all thistles with the same set of symbols are identical.

Process

During each tick, the garden has levels of 4 nutrients, sunlight, and 7 vitamins. The levels are represented by decimal numbers between 0 and 99, though they are displayed as integers.

The garden automatically starts with 50 each of Nit, Pot, H2O, and Oxy. These drop by 10 each tick, and each click of their button adds 20. Clicking Nit, Pot, or H2O consumes one deben of dung, saltpeter or water from your inventory.

There are 21 possible conversions of which some (usually 1-5) are inactive for a game week. The inactive ones are typically called "voids", and change at the same time as the fresh leaves. There are 3 conversions for producing each of the 7 vitamins; depending on levels of each of water, oxygen, or sunlight.

All conversions follow the rule that 10 of one thing produces a certain amount of another. Whenever there's more than 10 of the required nutrient available, only 10 is used. When there is less than 10, all of it is used and the amount of product is proportionally smaller. The reactions proceed in order of the vitamin being created. Within those, they proceed in order of the substance being converted.

Conversions table

H2O > 79
10 Nit → 3.33 Asc
Oxy < 49
10 Car → 5 Asc
Sun > 69
10 Fol → 20 Asc
Sun < 20
10 Pot → 2.5 Bio
H2O < 29
10 Asc → 20 Bio
Oxy > 89
10 Pyr → 10 Bio
Oxy > 69
10 Pot → 3.33 Car
Sun > 79
10 Asc → 10 Car
H2O < 39
10 Thi → 20 Car
Sun > 69
10 Pot → 2.5 Fol
H2O < 59
10 Nia → 30 Fol
Oxy < 49
10 Thi → 20 Fol
Sun < 20
10 Asc → 20 Nia
H2O > 69
10 Pyr → 5 Nia
Oxy < 39
10 Thi → 10 Nia
H2O < 39
10 Nit → 3.33 Pyr
Sun > 59
10 Car → 10 Pyr
Oxy > 79
10 Fol → 20 Pyr
Sun < 40
10 Asc → 10 Thi
Oxy < 49
10 Car → 20 Thi
H2O < 49
10 Nia → 5 Thi

Strategies

<to be completed>