![]() Here’s a picture I took of my cousin’s son. By doing this, you create a more interesting portrait than if the subject were centered.Ī much simpler and more accessible way to follow this rule is to use the Rule of Thirds grid, which you probably have on your phone’s built-in camera or your DSLR. The goal is to put a subject or main part of a subject on one of the intersecting lines – the subject shouldn’t be centered, and some blocks should be left empty (in most cases, at least – macro photography and close-up portraits will fill almost all of the frame). You then use the intersections to compose the shot. If you use those numbers to create squares with those widths, you can pretty much create a Golden Spiral: The first few numbers in the sequence are 0, 1, 1, 2, 3, 5, 8, 13, 21, 34. The Fibonacci Sequence is pretty simple to understand: you start with zero and 1, then get the next number by adding up the two numbers before it. If you start in the bottom left and make an arch to connect the far side of each square-and-small-rectangle cross section, you’ll get the Golden Spiral. You can also make a new Golden Rectangle out of the smaller rectangle, like this one I’ve outlined in blue:Ī traditional Golden Ratio diagram has eight Golden Rectangles:Īnd here’s the smallest Golden Rectangle, #8: Together, they create a complete Golden Ratio layout and a base for the Golden Spiral. By sectioning off that square, you automatically create another, smaller rectangle (outlined in green). The red square has four sides equal in length, and that length is equal to the shortest length of the rectangle. Ignore the black lines and look at the red and green boxes: When you place a square inside the rectangle, it creates another, smaller rectangle. Back to the Golden Rectangle, because it’s so much easier to understand So, (a + b) divided by (a) equals 1.618, and (a) divided by (b) also equals 1.618. The entire length (a + b) divided by (a) is equal to (a) divided by (b). You take a line and divide it into two parts – a long part (a) and a short part (b). ![]() This also reveals how much information is integrated, a system that is a reflection of our own cognitive processes.The Golden Ratio is a number that’s (kind of) equal to 1.618, just like pi is approximately equal to 3.14, but not exactly. In other words, the Golden Ratio divides the sum into its parts to be analyzed the right way. The symbol Phi ‘Φ’ is composed of the letter ‘I’ layered with the letter “O”, where ‘I’ links to information and ‘O’ with the circle of integration. There are better ways to do estimate than what meets the eye, just as there is more order in nature than we tend to think. ![]() Golden Ratio Estimating was chosen for our name because we look for answers beyond the surface. The simple equation of the Golden Ratio has charmed us all: artists to architects and biologists to mathematicians. The Golden Ratio reveals a set pattern that is embedded everywhere, from ecology to the economy, where it has helped us compute more predictable outcomes. The conscious minds are the minds that see the world differently they see the organization in nature, the beauty in numbers, and the potential in problems to become solutions. It is also a symbol- the epitome of consciousness. The Golden Ratio is an equation that describes the makeup of nature and the world around us.
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