Fibonacci numbers are 1, 1, 2, 3, 5, 8, 13, ...
You add two previous terms you get the next term.
If you put F(n) as the nth Fibonacci number,
the golden ratio (φ) is
lim(n→inf) F(n+1)/F(n)
that is because
F(n) = (φ^n-(-φ)^(-n))/(√5)
Other properties of φ
φ = (1+√(5))/2
1/φ = φ-1
φ2 = φ+1
I'm currently doing a project on this, My project is based on the idea that if you had a group of rectangles and one of them was in the Golden ratio then they would prefer the golden ratio over the others.See related link below for more help
The ratio of dividing the larger Fibonacci number into the smaller Fibonacci number gives you the golden ratio (1.618 to 1). -------- The Golden Ratio is the number (1+sqrt(5))/2~=1.618 The Fibonacci sequence is 0, 1, 1, 2, 3, 5, 8, 13, 21, 34, 55, 89, 144, ... . Skipping the first two terms, if you divide one term in this sequence by the previous term the resulting sequence converges to the Golden Ratio: 1.0000 2.0000 1.5000 1.6667 1.6000 1.6250 1.6154 1.6190 1.6176 1.6182 1.6180 Please see the link for more information.
well a synopsis of it is that a fraction is a for of splitting something in to pieces like 1\2 is half of anything. where as a ratio is just a number divided by another number. In a 100:10 form which is 100 divided by 10 and the answer is obviously 10.
The related link provides an excel template and some notes on how to calculate the sharpe ratio..pretty simple and effective.
Nominal, ordinal, interval and ratio. Please see the link.
The golden ratio = 1.8618033969... It is used in art, architechture and music. In the related links box below I posted a link showing the uses of the golden ratio.
See the link below
I'm currently doing a project on this, My project is based on the idea that if you had a group of rectangles and one of them was in the Golden ratio then they would prefer the golden ratio over the others.See related link below for more help
Click link below. In the paintings shown you will see the geometrical details.
There are several who discovered the significance of this ratio (see related link post). Euclid (around 300 BC) noted the ratio, but it looks like it was referred to as 'Golden' by Martin Ohm in 1835.
The Golden Link was created in 1954.
The Torus vector equilibrium is a vortex by which nature forms energy into matter. The Phi spiral also known as the Golden ratio is commonly found in nature. At this time there is no link between the torus vector equilibrium and the phi spiral, although a link between the two has not been disproved.
The ratio of dividing the larger Fibonacci number into the smaller Fibonacci number gives you the golden ratio (1.618 to 1). -------- The Golden Ratio is the number (1+sqrt(5))/2~=1.618 The Fibonacci sequence is 0, 1, 1, 2, 3, 5, 8, 13, 21, 34, 55, 89, 144, ... . Skipping the first two terms, if you divide one term in this sequence by the previous term the resulting sequence converges to the Golden Ratio: 1.0000 2.0000 1.5000 1.6667 1.6000 1.6250 1.6154 1.6190 1.6176 1.6182 1.6180 Please see the link for more information.
Golden Link College was created in 2002.
Golden Globes Awards WebsiteA click on the Related link takes you to the official website of the Golden Globes Awards.
The portfolio with the highest Sharpe ratio is on the efficient frontier, according CAPM. The Excel spreadsheet at the related link allows you to calculate a Sharpe optimal portfolio
Compression is squeezing something so that it occupies a smaller space. Ratio is the proportion between two quantities or numerical values. Click the link for a detailed explanation. Explanation below! ++++ Therefore a Compression Ratio is the ratio between original and compressed volumes of, normally, a gas, such as the fuel-air mixture in a vehicle engine cylinder. If the starting volume in the cylinder is 100cc and the piston then rises and compresses the gas to 10cc then the compression ratio is 100:10, which we then simplify to 10:1. (Read the colon as the word "to".)