Silk island

Night falls into the friction of orange energy shattered into the billowing cloud, sail masts piercing the evening mood.

DSC_0536Next morning at the early rise of Earth light the dazzle of spider thread captures the sparkle of dew.

DSC_0558Are these just random web lines scattered across the surface pine hedge ? No this design is an elaborate web of sensing vibration stretched over piercing supports like the night masts of sailboats resting on the lake envelope in a sheltered cove. How do these tents of stretched fibers get built ? What forms are they ? What hidden mathematics float around their  woven extension ?

1948, a student Kenneth Snelson presents his design of floating tension into the realm of creativity, proudly elegant in its entirety of simple yet balanced form containing suspended elements attached to each other but a mimic to Nature’s spider support of a ordinary web.

tensegrity008Human design is always a mirror to what influence if not the ordinary things that Nature has scattered around us like shells on a beach. It is not the design that catches the eye of the observer it is more the story behind the shell, the rise of evolution in a solitary shape. Shape is the essence of the story of evolution. Shape can transform any surface into a spider’s web. A stretched antenna capable of catching the minute flying insects onto the sticky surface features yet essential to the survival of the spider as food to provide nourishment for another day of existence. It is this design that Snelson magically captured as if inspired by the spinning spiders web into first recognizing how forces can merge then suspend to flex. How a spiders web can behave like an antenna shape as if listening to the chatter of available insects flying over this capture zone, vulnerable to its purpose. The web is like a bull’s eye shape waiting for an arching insect sweeping into its form. Like an alive weapon efficient in its capture, this spider’s web is an extension of its brain capable of attracting food to it by the design of its silken tent stretched across a pine hedge. The design accomplishes the sensing of shape into an intelligence within the spider a shape of floating tension necessary for the spider’s survival. Shape is not only design it is a sensing capacity to interact with the surroundings, to accomplish a goal of teaching us that design is not just for unique artists like Snelson. Shape is used in Nature to accomplish tasks from snaring food from the air from sensing the very essence of force for sensing the primal force for sensing gravity. Nature has accomplished this since the fog of ancient time as Earth was first progressing one DNA one RNA shape at a time building  with design. Building shapes that capture information that capture survival ensuring more designs more floating tensions to experiment with.

When we think of floating suspension we tend to think of rigid attachments, the sort of angled components of a bicycle.

floating suspension 6a00e008c44bfc883400e54f353fb98834-800wi

We tend to perceive fixed supports at hinges translating rotating forces by absorbing energy. Yet the spiders tent accomplishes this balance with much more flexibility more absorption of forces more sensing of forces. This bicycle does not sense its surroundings as a floating tension web. We as riders sense its vibrations, but the bicycle is mechanical, without sensing capacity. The spider senses its surroundings through the antenna shape of its web.


The Sagrada Familia Basílica y Templo Expiatorio de la Sagrada Familiawas created by the genius Catalan architect Antoni Gaudi used elaborate inverted cables of suspended bags hanging to the effect of drooping lines following the catenary curves to establish his Barcelona cathedral’s central shape upside down first to mimic how Nature senses shape in a gravity field. Gaudi’s genius was to employ floating suspension as a design for first creating the convoluted shapes upside down as a floating tension respecting the shape that gravity gives to the overall flow of curves to support the weight of the cathedral. Gaudi would uproot trees and bushes to study how they were supported in gravity under the ground. Gaudi like Snelson intuitively understood that Nature designs by using gravity to establish the floating tension network that supports the entire cathedral. Yet the design of floating tension can also be made in the absence of gravity, the way all objects need to be constructed in outer space since support based design will not function in a zero gravity environment. Gravity Storm

In the matrix of chaos within a gravity vortex we are not familiar with the singularity of space how gravity really behaves. We lose the coherence that a familiar spiders web affords us. We drift easily into incoherence trying to grasp unfamiliar shapes unfamiliar forms we are not prepared to gaze on except for selective observers like mathematicians or physicists not afraid to venture into this different realm. But that is the fabric hidden in the spider’s web this glimpse at the universe outside of our horizon outside of our experiences. Where gravity looms as the sensing force of the universe.

We have the Sagrada Familia cathedral to gaze at the floating tension ceiling above our heads the soaring arches that thrill the eye starring from below.

SAGRADA FAMILIAAs if Aztec designs are swept into concrete clouds shapes hover overhead, shapes of billowing clouds colored into navigation stars  to become useful landmarks in the ceiling.


Mathematicians pose the query, are strings mathematical support? Doesn’t the answer lie within a spiders lines tented over a pine hedge?  ” Scientists at the University of California, San Diego (UCSD) have devised two mathematical tools considered to be a major contribution to the optimal design of a new generation of deformable bridges, buildings, shape-controllable airplane wings, radio antennas, and other alternatives to current structural technologies. Two reports will be published in the International Journal of Solids and Structures, with the first appearing in the April issue.  The deformable characteristic is made possible with strong, ultra-light truss-like arrangements of rods suspended by strings or wires. The resulting structure incorporates tensegrity, a combination of “tension” and “integrity.”

“Although tensegrity structures are not yet part of mainstream design engineering, we think their amazing properties explain why you find this arrangement in spider webs, the protein cytoskeleton of cells, and many other biological structures,” said Robert E. Skelton, a professor of mechanical and aerospace engineering in UCSD’s Jacobs School of Engineering.”

“Skelton and his students have pioneered the development of rigorous scientific tools to analyze the balance of forces and movement in many types of tensegrity systems. Unlike the arms and legs of a puppet, which hang from strings, the rods within a robotic tensegrity limb would be held in tension by a system of cables. Built-in actuators could pull those cables to direct the robot to wave or pick up a block.”

“Skelton and postdoctoral fellow Milenko Masic describe in the April issue of the International Journal of Solids and Structures a mathematical method for optimizing the initial tension of strings within defined extremes of motion.”

“In a second paper in the International Journal of Solids and Structures, which is available online, Skelton, Masic, and UCSD mathematics professor Philip E. Gill describe an optimization algorithm that will help tensegrity designers maximize the strength and minimize the weight of the rods and cables. A new generation of tensile-element materials has mechanical properties that are superior to those of traditional compressive elements, and the optimization algorithm by Skelton, Masic, and Gill incorporates the strength constraints of those materials. That information is used to help specify how to design a structure with the least material while retaining the desired stiffness as the structure changes shape.”

“A tensegrity-based wing could change shape as an airplane gains speed, but if the stiffness was relaxed the wing would fall off” said Skelton. “In mathematical terms, our algorithm directs the tensegrity structure to maintain its stiffness as it moves from one equilibrium position to another. The beauty of this approach is we don’t have to continually use energy to maintain the shape at each new equilibrium position.”

Snelson coined the term floating tension to describe  the integrity of tension within a network of tension held together within compression elements. Nature builds objects with these identical characteristics both at the nano level within RNA and DNA scalable up to  protein molecules scalable further to shapes familiar to the human eye, like bone forces shaping bone cell shape configurations.

Snelson never imagined that his artistic vision would 70 years later transcend the elegance of two tension compressed suspended floating elements that would become essential images for how Nature builds shape as its design imperative.

bambooLike a cell assembly resting on a surface the inner matrix is a series of elements connecting within a tension net that not only connects each element of the entire assembly can move about this surface as if a self moving robot. Our cells can perform similar motions yet when linked together they behave in coherence since they are linked both to themselves and into their surroundings. That is the kind of observation that is the beginning of understanding how our brain is actually designed, how it has elastic shape how our brain moves. To understand how a spider web teaches us the importance of design in its survival in its thinking we can spin that observation onto a floating tension communication web that is running our brain. To begin to understand how our brain moves during a concussion a tented spider web begins the exercise to observe first how the brain is designed, what makes the brain hold its own shape. The spider web teaches us the importance of the shape of design that shape can transform itself into a self sensing entity.

tensegrity floating tension webThe mathematical version of tension elements within a floating tension surface.

Actin geodome structures (tensegrity) form in cells as they attach to a surface as shown in this fluorescence micrograph of actin in an adherent epithelial cell

Actin geodome floating tension structure (tensegrity) form in cells attached to a surface revealed by fluorescence micrography of actin in an adherent epithelial cell

About cerebrovortex

Montreal Grandmother, Agnes Kent was saved by Raul Wallenberg from certain death, when he provided papers for her and her Mom to escape away from the Nazis. Today when asked what that escape meant, she replied,"Remind people, that while statesmen and whole countries remained silent and did nothing, a single individual chose to act, with ramifications that proved enormous. Similar choices confront us today. Write that simple truth she said, it can never be repeated often enough because the world keeps forgetting it."
This entry was posted in Uncategorized. Bookmark the permalink.

1 Response to Silk island

  1. Charlene says:

    Hello! I’m working on a National Geographic documentary and I came across your picture of Gaudi’s hanging model. I would like to know if you’ll kindly allow us permission to use it or if you’ll be able to direct me to your source.

    Of course, I’ll be happy to chat with you and tell you more about what we’re doing should you be interested. Thanks and I look forward to hearing from you!

Comments are closed.