Eternal Knot
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'''The bottom curve''' The bottom curve is defined as the opposite of the top curve, using the equation | '''The bottom curve''' The bottom curve is defined as the opposite of the top curve, using the equation | ||
- | y=-√-x2+1. When this semicircle is graphed, however, it completes the circle instead of leaving room for the square and the other curves to be constructed. So, in order to move the semicircle down the y-axis, the equation of the curve becomes y+1=-√-x2+1. | + | y=-√-x2+1. When this semicircle is graphed, however, it completes the circle instead of leaving room for the square and the other curves to be constructed. So, in order to move the semicircle down the y-axis, the equation of the curve becomes |
+ | y+1=-√-x2+1. | ||
[[Image:Screen shot 2013-06-17 at 9.20.56 PM.png|440x440 px]] | [[Image:Screen shot 2013-06-17 at 9.20.56 PM.png|440x440 px]] |
Revision as of 22:41, 17 June 2013
Carrick Mat |
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Carrick Mat
- The Carrick Mat is a decorative knot, known as the 8-18 knot in knot theory.
Contents |
Basic Description
The knot is made up of parts of circles that connect with four perpendicular lines which form a square in the center. The curved lines overlap, as do the straight lines in the center, forming a knot that appears to have no beginning or end.A More Mathematical Explanation
Some basic knot theory...
The Carrick Mat is called the 8-18 knot in knot theory.
In knot theor [...]Some basic knot theory...
The Carrick Mat is called the 8-18 knot in knot theory. In knot theory, a knot is just a closed curve in 3D space. It can be a loop, as simple as this...
...Or it can be as complicated as the Carrick Mat. The unknot, in knot theory, is a knot that has no crossings, like the loop in the picture. What's interesting about the Carrick Mat is that it only has 8 crossings, but to get it back to the unknot, it has to be manipulated 18 times.
Defining the Carrick Mat
The curves and lines of the Carrick Mat can be defined with equations. The way the knot appears depends on how the equations are written.
The curves
The top curve When using a unit circle, half of the top curve can be defined using the equation y=√-x2+1. When it's graphed, this equation produces a semicircle that intercepts the y-axis at 1 and intercepts the x-axis twice at 1 and -1 and has radius 1.
The bottom curve The bottom curve is defined as the opposite of the top curve, using the equation y=-√-x2+1. When this semicircle is graphed, however, it completes the circle instead of leaving room for the square and the other curves to be constructed. So, in order to move the semicircle down the y-axis, the equation of the curve becomes
y+1=-√-x2+1.
The right and left curves The right and left curves are defined differently than the top and bottom curves. Since they intercept the x-axis at one point and the y-axis at two points, the equation has to be written as x= instead of y=. The right curve's equation is x-.5=√-(y+.5)2+1. When it's graphed, the curve has radius 1. The left curve's equation is the opposite of the right curve's equation. So the equation of the left curve is x+.5=-√-(y+.5)2+1.
In the Carrick mat, however, the curves are more than semicircles, so there are also eight equations for the parts of the curve that connect to the square inside. These can be found by forming a complimentary semicircle to the one that's already graphed, and then finding its intersection point with its opposite. Then graphing a linear equation that runs through that point. Basically.
So, to find the complimentary semicircle to the top curve, use the top curve's beginning, y=, with the bottom curve's ending, -√-x2+1. The equation then becomes y=-√-x2+1. To find the complimentary semicircle to the bottom curve, use the bottom curve's beginning, y+1=, with the top curve' ending, √-x2+1. The equation then becomes y+1=√-x2+1.
The same concept works for the side curves. For the right curve, the complimentary semicircle's equation is x-.5=-√-(y+.5)2+1, and for the left curve, the complimentary semicircle's equation is x+.5=√-(y+.5)2+1.
The square
The equations that make up the square are simpler. They're linear equations! So no square roots.
The four of them are:
y=x+.366 y=-x+.366 y=x-1.366 y=-x-1.366
When they're graphed, the knot looks like this:
After it's cleaned up, and made less like a jumbled blur of color, the knot looks like this:
Teaching Materials
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