Functions, Duality, and Mapping Diagrams. State of Jefferson Math Congress. Oct. 5, Martin Flashman

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Transcription:

Functions, Duality, and Mapping Diagrams State of Jefferson Math Congress Oct. 5, 2013 Martin Flashman Professor of Mathematics Humboldt State University flashman@humboldt.edu http://users.humboldt.edu/flashma

What is a Mapping Diagram? What happens before the graph.

A.1 Suppose f is a function determined by the following table : t -4-3 -2-1 0 1 2 3 4 f (t ) -3-2 0 3 4 3 2-1 0 Complete the following mapping diagram for f with the indicated numbers. [Use the same scale for the second axis.] B. Suppose that f (x) = 2 x + 1 for all x. B.1. Complete the following table : x f(x) B.2. Complete the following mapping diagram for f with the indicated numbers. [Use the same scale for the second axis.] 2 1 0-1 2

Worksheet C f(x) = mx + b Sketch mapping diagram. 1: m =-2; b = 1: f(x) = -2x + 1 2: m = 2; b = 1: f(x) = 2x + 1 3: m = ½; b = 1: f(x) = ½ x + 1 4: m = 0; b = 1: f(x) = 0 x + 1 5: m = 1; b = 1: f(x) = x + 1

Duality in Geometry Duality: A pairing of words, concepts and figures. Words Point Line Line Point Intersection Join Join Intersection Concepts and Figures Triangle Trilateral Graph of Function Mapping Diagram A range of points A pencil of lines

Duality Exercise I say point ; you say line. I say line ; you say point. I say intersection ; you say join. I say join ; you say intersection.

Principle of Duality in Projective Planar Geometry (PPG, also RP 2 ) Suppose S is a statement in PPG and S is the corresponding dual statement in PPG that results by applying the appropriate changes to the words and concepts of S. Principle: S is a theorem of PPG if and only if S is a theorem of PPG.

Application of Duality in PPG S: Two points, P and Q, determine a unique line, the join of the points P and Q. S : Two lines, p and q, determine a unique point, the intersection of the lines p and q. When lines are parallel in Euclidean Geometry they meet in PPG at a unique point at infinity. Two distinct points at infinity determine a unique line, the line at infinity ( the horizon line). So parallel lines meet on the horizon line.

2 A look at RP visualizing PPG. Look at Worksheet E.1. 2 Graph f(x) = x and g(x) = x+1 in RP.

Duality and Linear Functions Suppose f: R R is defined by The graph of f, f(x) = mx+b. f ={ (x,y): y = f(x), x R} is a unique line in the euclidean plane, which we can consider a line in PPG. A point P in Euclidean geometry lies on f if and only if for some a R, P is the point of intersection of two lines {(a,y); y R} and {(x,f(a): x R}.

Consider f as a line in PPG. Then by the principle of duality, there is a unique point, L f, in PPG with dual properties: L has a distinguished pencil of lines passing f through it determined by the function f. A line p passes through L f, if and only if for some a R, p is the join of two points: A, a point determined on a line (the X axis) corresponding to the number a, and B=f(A), a point determined on a line (the Y axis) corresponding to the number f(a). f We will call the point L the focus point for the linear function f.

Applications of the Focus Point. 1. Two pairs of data determine a linear function, f. (1,3), (2,0). Find f(0) Solution: Draw the arrows on the Mapping Diagram and extend them to meet at the Focus Point. To find f(0) draw the line from the focus point on the Domain Axis on the MD. Where the line meets the Target axis is f(0).

2. Using the same function as in the previous problem find a where f(a)= -6. Solution: Draw the line from the focus point of f to -6 on the target axis. Where this line meets the Domain axis, is the desired value for a.

3. Suppose g(x)=m x +b is a linear function with m m. Find a where f(a) = g(a). Solution outline: Find the focus points for f and g. Draw the line determined by these two focus points. Where it meets the Domain axis is the desired number a.

1 Visualizing functions f: RP 1 RP Many f:r R functions extend to give 1 1 functions from RP to RP. Examples: 1. f(x) = 4: f( ) = 4. 2. f(x) = 3x + 4: f( ) =. 2 3. f(x) = x - 4: f( ) =. 4. f(x) = 1/(x-1): f(1)=. f( ) = 0.

2 We can visualize these in RP by treating the infinite values appropriately. 1. f(x) = 4, f( ) = 4 (?). 2. f(x) = 3x + 4, f( ) =. 2 3. f(x) = x -4. f( ) =. [Created with Geogebra] 4. f(x) = 1/(x-1). f(1)=. f( ) = 0.

1 But in fact RP can be visualized as a circle. See Worksheet D.

Using this we have two more ways to visualize a 1 function f: RP 1 RP : The graph of f: RP RP 1 1 RP RP - the torus! 1 1 2 Example: f(x) = x. f( ) =. [Created with SAGE] is a curve on

The mapping diagram of f, a surface with boundaries a circle and a subset of a circle. 2 Example:f(x) = 1/(x -1). f(±1)=. f( ) = 0. [Created with SAGE]

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