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). 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. The sides of the square are equal to the shortest length of the rectangle: The Golden Rectangle is a large rectangle that has a square inside it. To understand the Golden Ratio, you have to first understand the Golden Rectangle But if you can’t, that’s okay – you’ll still be able to use the concept in your designs. ![]() I’m going to explain the Golden Ratio’s math as simply as possible and without going into the details you don’t actually need to know. 4.4 Honorable Mention: The Golden Ratio and Images.3.1 Let’s take a look at a commonly-referenced example: the Parthenon.1.2 Back to the Golden Rectangle, because it’s so much easier to understand.1.1 To understand the Golden Ratio, you have to first understand the Golden Rectangle.
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