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Intermediate Math Parametric Equations Local Coordinate Systems Curvature Splines.

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Presentation on theme: "Intermediate Math Parametric Equations Local Coordinate Systems Curvature Splines."— Presentation transcript:

1 Intermediate Math Parametric Equations Local Coordinate Systems Curvature Splines

2 Parametric Equations (1) We are used to seeing an equation of a curve defined by expressing one variable as a function of the other.  Ex. y= f(x)  Ex. y= A parameter is a third, independent variable (for example, time). By introducing a parameter, x and y can be expressed as a function of the parameter, as opposed to functions of each other.  Ex. F(t) =, where x= f(t) and y= g(t) F(t) = - what is this curve and why is this parameterization useful?

3 Parametric Equations (2) Each value of the parameter t determines a point, (f(t), g(t)), and the set of all points is the graph of the curve. Complicated curves are easily dealt with since the components f(t) and g(t) are each functions.  Ex. F(t)= Sometimes the parameter can be eliminated by solving one equation (say, x=f(t)) for the parameter t and substituting this expression into the other equation y=g(t). The result will be the parametric curve.

4 Parametric Equations (3) Using parametric equations, we can easily add a 3 rd dimension:  A conceptual example: Picture the xy-plane to be on the table and the z-axis coming straight up out of the table Picture the parameterized 2-D path (cos(t), sin(t)) which is a circle on the table Add a simple z-component such that the circle climbs off the table to form a helix (or corkscrew), z=t  Mathematically: Add a simple linear term in the z-direction: F(t)=

5 Parametric Equations (4)

6 Parametric Equations (5) The calculus we use for parametric equations is very similar to that in single-variable calculus. As with regular curves, parametric curves are smooth if the derivatives of the components are continuous and are never simultaneously zero. To take the derivative of a parametric equation, take the derivative of each of the components.  If F(t)=, then F’(t)= As with single variable calculus, the 1 st derivative indicates how the path changes with time. Note that another way to represent parametric equations is to use unit vectors. From the above example:  F(t)= turns into: F(t) = cos(t)i +sin(t)j +tk

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