Difference between revisions of "Roulette"
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Revision as of 12:28, 29 June 2009
- Four different roulettes formed by rolling four different shapes and tracing a fixed point on each of these shapes.
Suppose you see a nickel rolling on the sidewalk. Imagine a pen traced the path of one fixed point on the coin as it rolled. A curve would be created. This curve is called a roulette. The example is depicted below:
However, a roulette is not restricted to straight lines and circles. The rolling object can range from a point on a line to a parabola to a decagon to anything. Similarly, the surface on which this curve rolls does not have to be a line. It can be a parabola as well, or a circle, among many others. There are a few restrictions that apply:
- The curve that is not rolling must remain fixed.
- The point on the rolling curve must remain fixed.
- Both curves must be differentiable.
- The curves must be tangent at all times.
In the example of the rolling nickel, we imagine that the point of the pen is somewhere on the edge of the nickel. However, this point does not have to be on the edge of the rolling object. It can be also be inside or outside, varying how the curve will look.
A More Mathematical Explanation
There are numerous cases of different roulettes; the most common ones have been named. A few of these are listed below:
Interesting Application of the Concept
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- Reference used - Weisstein, Eric W. "Roulette." From MathWorld--A Wolfram Web Resource. http://mathworld.wolfram.com/Roulette.html
- Reference used - http://en.wikipedia.org/wiki/Roulette_(curve)
- Reference used - http://www.geom.uiuc.edu/docs/reference/CRC-formulas/node34.html
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