examples III

This is the fourth entry in a series of crop circle reconstructions with emphasis on trisection.

Trisection is shown as blue lines that trisect angles visable in the design. In many cases a tramline is crossing the formation allong these lines. The assumption is that this is deliberately and consistantly done. Possibly because this is one of three unsolvable geometric problems from antiquity, together with squaring the circle and doubling the volume of a cube.

For an introduction please go to the..Introduction!

July 16, 1991 Barbury Castle.

Often lovingly refered to as the "mother of all crop circles".

July (?) 1995, Wheat hill.

One of the "dorsal fins" is smaller. Trisection by entry of the tramlines.

June 14, 1997 Upham.

Trisection incorporated in the design, based on the vertices 1 and 4 of a decagon.

July 23 2000 Silbury hill

June 18, 2000 Bishop's Cannings Down.

August 15, 2002 Crabwood

http://www.lucypringle.co.uk/new-version-old/Articles/the-crabwood-event.html

http://temporarytemples.co.uk/crop-circles/2002-crop-circles

http://www.lucypringle.co.uk/photos/2002/uk2002dl.shtml#pic2

The framework without the face and spiral. The location of the circle is determined with trisection. The angle between the vertical axis and centre of the circle is trisected by its own radius. The angle between the top of the circle and centre is trisected by the tramline. Both outside and inside radius of the circle.

June 22, 2005 Lurkeley hill.

Trisection incorporated in the design.

June 27, 2007 West Kennet.

July 26, 2012 Oliver's castle.

July 13, 2013 Hoden.

examples II

This is the third entry in a series of crop circle reconstructions with emphasis on trisection. For an introduction to the subject, please go to the first entry here.

The reconstructions don't follow a narrative. They are randomly picked from Lucy Pringle's- and Steve Alexander's website. Please visit 

http://www.lucypringle.co.uk/

http://temporarytemples.co.uk/

July 21, 1994 East Field

Another octagonal design. Trisection both on 45° (top)  and 90° (bottem).

July 24, 1994 East Dean

The main body of the formation is build "ad quadratum". Trisection on a straight angle by the tramlines. Note how these lines make trisection two times; on the outer perimeter and at the central circle. Another beautiful quallity of this formation is how the long axis ends at a tramline. While the tail curves away, the size of the second circle is determined by this meating point of axis and tramline.

July 15, 1995 Kingsclere.

The grape shots seem to tell 2/3 and 1/3.

June 11, 1997 Rockley down

June 12, 1999 East Field

The head of the serpent bends 120° from the horizontal axis of the formation, which is the tramline. Trisection where the lower tramline crosses the head.

July 17, 2005 Boxley

Trisection incorporated in the design.

May 19, 2007 Morgan's hill.

Just as with the Boxley frormation, when there are so many elements involved, one could argue that finding trisection is coincidence. So allthough the interaction between design and tramlines seem to be very deliberate, they do not convince solely on trisection. Together with all the other examples however, i hope they bare som weight in the argument that trisection has been a integral part of crop circle design the last quarter of a century.

June 17, 2012 Berkley Lane

The proportions of the perimeter, central circle and ring reveal a triangle with the same angles as the dominant triangle in the Sri Yantra, and the Great pyramid. Trisection  of the slope angle gives reference to the tramline at one end, and the little grapeshot at the other. Trisection of the apex gives reference at the same grapeshot, and the tangent point of the tramline.

July 1 and 23, 2012 Wanborough Plain

First found on the first of july. The grey part was flattende three weeks later. Trisection at the entry of the tramline.

May 24, 2015 marlborough

Trisection on the 13 fold regular polygon. As if the tramline pushes the fourth satelite out of symetrie.

examples I

The following is a series of cropcirclereconstructions with emphasis on Trisection. I try to show that it has been an integral part of crop circle design throughout the last quarter of a century, though not necessarily visable in every formation.

For a full introduction please read the previous post of this blog here.

September 3. 1993 Bythorn

Famous formation because it was the first formation with visable pentagonal geometry.

Trisection, based on a tenfold polygon, by the entry of one of the tramlines.

June 18, 1995. Cow down.

The hatchett segment is one segment of a heptagon. The tramline determines trisection.

June 17, 1996 Alton Barnes.

Not based on a regular polygon, but the trisected angle between the horizontal axis and the crossing point of the arc's is at where the tramlines runs through the formation.

August 1, 1996 Ashbury.

The Vesica Pisces gives shape to every polygon, but the most natural progression is hexagonal, hence trisection at 20°.

May 10, 1998. Bury hill.

Trisection incorporated in the design.

June 22, 1998 Cutforth

The design has distinct internal and external radii. When the cicle with the internal radius is placed at the centre, trisection is made by the tramline.

June 20, 2001 Avebury.

Trisection incorporated in the design.

June 15, 2004 Honeystreet

Four of six segments are trisected by tramlines. Each opposite to each other.

June 10, 2008 North down.

July 31, 2009 Winterbourne Bassett

Trisection incorporated in the design.

Introduction

 Trisection of an angle, Avebury aug. 11, 1994

Trisection is the devision of a given angle in three equal parts. This is not possible to construct with a straight edge and compass (most angles that is, angles that are devidable by both even and uneven numbers are possible. Such as 12 which is 3x4 and 2x6)

It is one of three unsolvable problems in geometry as it was practised in ancient times. The other two being Squaring the Circle and Doubling the volume of a Cube. None of these can be solved because they deal with irregular numbers. They can only be solved aproximately.

One could ask why such obscure riddles survive all the cultural changes throughout history. I think the answer to that is that these problems delt with real situasions that needed a sollution. Not in mundaine, every day life perhaps, but in archtitecture and construction. A mason had to use the same methods of construction both on the drawing board and on the building site. Which was just a bigger board, with ropes and pinns in the ground instead of straight edge and compass. They often encountered these problems and must have taken pride in showing how they solved these aproximately in a way that was only visible to other initiated. This knowledge was handed over from master to aprentice and ceeping it secret was paramount from a compettitve point of vieuw. Hence the secrecy and symbolism in free mason tradition. (Which, i think, is a much more plausible explanation than all the metafysics and mysticism surrounding it these days.)

 Initial design of the st. Peter by Bramante

Anyway,

Squaring the circle was discovered as an integral part of crop circle design in the late 90's. A lot is written about this ( by Michael Glickman and Bert Janssen mostly). if you're new to the subject, you should really check this out. It is an aspect of crop circles that has been shown countless times and it has the same function as it once had regarding architecture; To really apreciate the cleverness and intelligence of the design, you have to know what you're looking at.

 Squaring the circle with equal circumference and equal area.

Doubling the cube has not been in the search light where it involves crop circles. The reason to this is that when a cube has a volume of 1, it will have a side length of 1. When the volume is doubled to 2, the side length will be 1,259921.... which is very close to other propoprtions that are otherwise often used in crop circles; such as a squared circle with equal area 1:1,253315.., A perfect 5th or1:5/4, a consonont proportion in music, and 1:1,2360696... which is the proportion that determines the inner- and outer radius of a pentagon.

                                                Pentagonal proportion, doubling of the cube, 5/4 proportion and                                                           squared circle with equal area

Hidden pentagonal proportions too are a regular part of the crop circle portfolio. It was discovered in the early 90's by John Martineau and Wolfgang Schindler. It doesn't have the attention it deserves nowadays, but this too has been concistent throughout the last two and a half decade. They found out that crop circles where placed so that the tramlines coincided with pentagrams and pentagons. The reason for this, probably, is that pentagonal shapes are defined by ɸ, or the Golden mean, which is visable trhoughout nature. We are hardwired to unconsciously regard these proportions as beautifull. Crop cricles become more pleasing to look at when they are harmonious with there surroundings, such as tramlines.

But it makes it harder to discerne the proportion nescasery for doubling the volume of a cube.

 Reconstruction made by Wolgang Schindler.

Trisection has not been recognised previous. The reason for this is probably because it is not so exciting compared to a squared circle. I will not go on in length about this. There are many good websites and books and videos about this subject. It speaks to our imagination on a totally different level because squaring the circle involves not only geometry, but astronomy and metaphysics as well and weaves them together. It gives a sence of order to an otherwise chaotic and incomprehensible world. The same goes for pentagonal geometry, Phi proportions and the Fibonacci sequence. We look at pictures of DNA, spiral galaxy's and the face of Scarlet Johanson and feel a sence of awe that between all that there is place for uss as well. It has a spiritual dimension that trisection lacks.

Trisection is boring.

From a cultural historic point of vieuw however it is just as fascinating. It acknowledges a part of our history. And it takes a lot of creativity and intellect to take it in to the patterns laid down in a field together with squared circles and hidden pentagonal proportions.

The presence of trisection in crop circles however does not give an instruction as how to do it. In most of the cases trisection is shown by one tramline crossing the perimeter at a trisection point. In some cases it is part of the design but does not allways give away clues as how it is done. I want to make that clear, it has no practical use. It just is there as a recognition of our cultural inheritence. And i believe it has been consistently so, as i am going to show in the following entry's

In most cased trisection is shown by one tramline crossing the perimeter at a trisection point. Liddington castle june 24, 2001

Avebury crop circle photo by Lucy Pringle, taken from

http://www.lucypringle.co.uk/photos/1994/uk1994cg.shtml#pic3

st. Peter design taken from

https://quadralectics.wordpress.com/3-contemplation/3-3-churches-and-tetradic-architecture/3-3-1-the-form-of-the-ground-plan/3-3-1-2-the-cross-shaped-plan/3-3-1-2-1-the-greek-cross-type/

Schindler's reconstruction taken from

http://www.kornkreise.info/schindler/texte/text03.html

Liddington castle crop circle photo by Steve Alexander, taken from

http://temporarytemples.co.uk/crop-circles/2001-crop-circles