miércoles, 2 de enero de 2019

The #1 Science Revolution To Getting Bigger Down There - Stem Cells

It is not only the proportion of latewood, but also its quality, that counts. In specimens that show a very large proportion of latewood it may be noticeably more porous and weigh considerably less than the latewood in pieces that contain less latewood. One can judge comparative density, and therefore to some extent strength, by visual inspection.

 


Hey,

There is a way to be better in bed than most guys. Women know. But they lie about it- except amongst themselves. Men know too. But they pretend it's not possible.

You know what it is already:

Getting a bigger pen1s.

We all know it *can* be done. But we *deny* it. We don't want is to be humiliated or scammed. So we invent a mistruth:

'Making it bigger is impossible,' we say

I said it. You may have said it. Millions of men have said it before

But now there's a verified, tested, scientific way to make it happen


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The Power Of Stem Cells
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Stem cells are the most incredib!e cell-type in nature. Here's why..

They can become any type of cell. A heart cell, a brain cell or - you guessed it - a pen1s cell! Get more cells in your shaft and it *will* grow!

And today you're going to see proof!

Have you struggled to grow 'down there'?!

Stem cells are the answer. When your body doesn't have enough of 'em - and stem cells decline with age - then you have no chance in hell of getting bigger.

Get more stem cells into and follow a specific formula and growth isn't a possibility, it's virtually a certainty

On the next page you'll see all the fluff science and take a *revolutionary* quiz to see how big stem cells can make YOU, based on your size, age and race

This quiz is something I've never seen before. Take it now to see YOUR growth potential!

Take action,

Dave Foster  







In temperate softwoods, there often is a marked difference between latewood and earlywood. The latewood will be denser than that formed early in the season. When examined under a microscope, the cells of dense latewood are seen to be very thick-walled and with very small cell cavities, while those formed first in the season have thin walls and large cell cavities. The strength is in the walls, not the cavities. Hence the greater the proportion of latewood, the greater the density and strength. In choosing a piece of pine where strength or stiffness is the important consideration, the principal thing to observe is the comparative amounts of earlywood and latewood. The width of ring is not nearly so important as the proportion and nature of the latewood in the ring. If a heavy piece of pine is compared with a lightweight piece it will be seen at once that the heavier one contains a larger proportion of latewood than the other, and is therefore showing more clearly demarcated growth rings. In white pines there is not much contrast between the different parts of the ring, and as a result the wood is very uniform in texture and is easy to work. In hard pines, on the other hand, the latewood is very dense and is deep-colored, presenting a very decided contrast to the soft, straw-colored earlywood. It is not only the proportion of latewood, but also its quality, that counts. In specimens that show a very large proportion of latewood it may be noticeably more porous and weigh considerably less than the latewood in pieces that contain less latewood. One can judge comparative density, and therefore to some extent strength, by visual inspection. No satisfactory explanation can as yet be given for the exact mechanisms determining the formation of earlywood and latewood. Several factors may be involved. In conifers, at least, rate of growth alone does not determine the proportion of the two portions of the ring, for in some cases the wood of slow growth is very hard and heavy, while in others the opposite is true. The quality of the site where the tree grows undoubtedly affects the character of the wood formed, though it is not possible to formulate a rule governing it. In general, however, it may be said that where strength or ease of working is essential, woods of moderate to slow growth should be chosen

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