Ticket #4746 (new)
Opened 3 months ago
My friend lost 30 lbs in 2 weeks after drinking THIS
Reported by: | "4oz Of Water" <DrinkingTHIS@…> | Owned by: | |
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Priority: | normal | Milestone: | 2.11 |
Component: | none | Version: | 3.8.0 |
Severity: | medium | Keywords: | |
Cc: | Language: | ||
Patch status: | Platform: |
Description
My friend lost 30 lbs in 2 weeks after drinking THIS http://revifohairloss.us/wWNX4qYQPXHMe2hT47eeBb2aJiX_yQr4sYX1mRBP53lkIa4hDg http://revifohairloss.us/AIzZ3z9gra1SKDtnpK_SWOJmQ_AyN8x-bTsJYfC4GNBYJYTlYQ ost divergence angles are related to the sequence of Fibonacci numbers Fn. This sequence begins 1, 1, 2, 3, 5, 8, 13; each term is the sum of the previous two. Rotation fractions are often quotients Fn / Fn + 2 of a Fibonacci number by the number two terms later in the sequence. This is the case for the fractions 1/2, 1/3, 2/5, 3/8, and 5/13. The ratio between successive Fibonacci numbers tends to the golden ratio ? = (1 + ?5)//2. When a circle is divided into two arcs whose lengths are in the ratio 1:?, the angle formed by the smaller arc is the golden angle, which is 1/?2 à 360° ? 137.5°. Because of this, many divergence angles are approximately 137.5°. In plants where a pair of opposite leaves grows from each node, the leaves form a double helix. If the nodes do not rotate (a rotation fraction of zero and a divergence angle of 0°), the two helices become a pair of parallel lines, creating a distichous arrangement as in maple or olive trees. More common in a decussate pattern, in which each node rotates by 1/4 (90°) as in the herb basil. The leaves of tricussate plants such as Nerium oleander form a triple helix. The leaves of some plants do not form helices. In some plants, the divergence angle changes as the plant grows. In orixate phyllotaxis, named after Orixa japonica, the divergence angle is not constant. Instead, it is periodic and follows the sequence 180°, 90°, 180°, 270°. Divisions of the blade A leaf with laminar structure and pinnate venation Two basic forms of leaves can be described considering the way the blade (lamina) is divided. A simple leaf has an undivided blade. However, the leaf may be dissected to form lobes, but the gaps between lobes do not reach to the main vein. A compound leaf has a fully subdivided blade, each leaflet of the blade being separated along a main or secondary vein. The leaflets may have petiolules and stipels, the equivalents of the petioles and stipules of leaves. Because each leaflet can appear to be a simple leaf, it is important to recognize where the petiole occurs to identify a compound leaf. Compound leaves are a characteristic of some families of higher plants, such as the Fabaceae. The middle vein of a comp
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