View allAll Photos Tagged fibonacci
/// Sculpture in Bastión del Carmen, Colonia, Uruguay.
/// Escultura en Bastión del Carmen, Colonia, Uruguay.
This spiral staircase called "Wendelstein" is made of sandstone and part of Castle Hartenfels in Torgau / Saxony
Winner of Lines&Curves-Contest "Twisted"
I think I may be the only one who has ever captured this California sunrise! I first captured it two years ago, and I have been waiting to see if anyone else has captured it since!
One of the keys to shooting Epic Landscape Photography is exalting the photograph's soul via golden ratio compositions, thusly wedding the photographic art to the divine proportion by which life itself was designed and exalted.
Dr. Elliot McGucken's Golden Number Ratio Fine Art Landscape & Nature Photography Composition Studies!
instagram.com/goldennumberratio
www.facebook.com/goldennumberratio/
Greetings flickr friends! I am working on several books on "epic photography," and I recently finished a related one titled: The Golden Number Ratio Principle: Why the Fibonacci Numbers Exalt Beauty and How to Create PHI Compositions in Art, Design, & Photography: An Artistic and Scientific Introduction to the Golden Mean . Message me on facebook for a free review copy!
www.facebook.com/goldennumberratio/
The Golden Ratio also informs the design of the golden revolver on all the swimsuits and lingerie, as well as the 45surf logo!
The Golden Number Ratio Principle: Dr. E’s Golden Ratio Principle: The golden ratio exalts beauty because the number is a characteristic of the mathematically and physically most efficient manners of growth and distribution, on both evolutionary and purely physical levels. The golden ratio ensures that the proportions and structure of that which came before provide the proportions and structure of that which comes after. Robust, ordered growth is naturally associated with health and beauty, and thus we evolved to perceive the golden ratio harmonies as inherently beautiful, as we saw and felt their presence in all vital growth and life—in the salient features and proportions of humans and nature alike, from the distribution of our facial features and bones to the arrangements of petals, leaves, and sunflowers seeds. As ratios between Fibonacci Numbers offer the closest whole-number approximations to the golden ratio, and as seeds, cells, leaves, bones, and other physical entities appear in whole numbers, the Fibonacci Numbers oft appear in nature’s elements as “growth’s numbers.” From the dawn of time, humanity sought to salute their gods in art and temples exalting the same proportion by which all their vital sustenance and they themselves had been created—the golden ratio.
Ansel Adams is not only my favorite photographer, but he is one of the greatest photographers and artists of all time. And just like great artists including Michelangelo, Monet, Degas, Renoir, Leonardo da Vinci, Vermeer, Rembrandt, Botticelli, and Picasso, Ansel used the golden ratio and divine proportions in his epic art.
Not so long ago I discovered golden regions in many of his famous public domain his 8x10 aspect ratio photographs. I call these golden harmony regions "regions of golden action" or "ROGA"S, as seen here:
www.facebook.com/media/set/?set=a.1812448512351066.107374...
And too, I created some videos highlighting Ansel's use of the golden harmonies. Enjoy!
www.youtube.com/watch?v=AGnxOAhK3os
www.youtube.com/watch?v=WFlzAaBgsDI
www.youtube.com/watch?v=D3eJ86Ej1TY
More golden ratio and epic photography composition books soon! Best wishes for the Holiday Season! Dr. Elliot McGucken :)
After being bottled up for a few days with the weather I took the chance to go for a walk and check out the ocean.
I find the constantly changing patterns and flow are quite mesmerizing and could cheerfully spend a day in my own 'rain man' moment.
Hope you like this little tableau of air and water as much as I do
This has been my long bending dream project that I like to work on always, to find the Fibonacci pattern in nature, objects and my surroundings! I love the spiral pattern and the curves it creates. I've composted of few of the interesting patterns that I came across.
#Fibonacci #spiral #objects #flowers #patterns #colors #dreamproject, #nature
Kennt ihr die Fibonacci-Spirale? Wenn ihr dieser auf dem Foto folgt findet ihr den ziemlich genau den Nebeneingang zum Rothenburger Burggarten. Man könnte sagen, im Goldenen Schnitt brennt ein Licht :)
Foto und Bea: www.waahnsinnsgestaltungen.com
Macro Monday theme: Fibonacci
Subject is a shell from a garden statue of a snail. Happy Macro Monday folks!
Thanks for the visit, comments and favorites.
Please don't use this image on websites, blogs or other media without my explicit permission.
© 2010 Elisabeth0320 All Rights Reserved
CC week 22 is Rule of Thirds, Phi Grid, Fibonacci
The spiral of a snail's shell is what the Fibonacci sequence is all about.
Not a perfect spiral but...
On approach to the Kelowna airport, saw this boat doing a bit of a spin. Love the radiating waves and interference patterns.
This has been my long pending dream project that I like to work on always, to find the Fibonacci pattern in nature, objects and my surroundings! I love the spiral pattern and the curves it creates. I've composed few of the interesting patterns that I came across.
#Fibonacci #spiral #objects #flowers #patterns #colors #dreamproject, #nature
"In geometry, a golden spiral is a logarithmic spiral whose growth factor is 1.618, the golden ratio. That is, a golden spiral gets wider by a factor of 1.618 for every quarter turn it makes." The fibonacci spiral is seen consistenly in nature, from the center of a flower to the cosmos. It is too complicated for me to explain, but a nice explanation of it can be seen here: www.treehugger.com/how-golden-ratio-manifests-nature-4869736
121 Pictures in 2021 - Theme No. 55 - Math / Geometry in Nature
As you probably know, the Fibonacci sequence is one of the most famous formulas in mathematics.
To wit: each number in the sequence is the sum of the two numbers that precede it. So, the sequence goes: 0, 1, 1, 2, 3, 5, 8, 13, 21, 34, and so on. The mathematical equation describing it is Xn+2= Xn+1 + Xn
Examples of Flowers using the Fibonacci Numbers: Lilies and Iris have 3 petals. Buttercups and Pinks have 5 petals. Some delphinium have 5 petals. The Marigold has 13 petals. Some Asters have 21. Daisy can often be found with 21, 34, 55 and 89. The Black-eyed Susan has 21 petals.
This mum has 34 petals. I had to pluck and count them individually because it was too unreliable to try to count them from the photo. Please do not tell my wife that I destroyed her best mum bloom for the sake of accuracy in the Macro Monday group. Sadly, this bloom probably only had another 8 to 13 days to live anyway. You got to love those Fibonacci numbers.