Functions of one and Two Variables

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Presentation transcript:

Functions of one and Two Variables Limits Functions of one and Two Variables

Limits for Functions of One Variable. What do we mean when we say that Informally, we might say that as x gets “closer and closer” to a, f(x) should get “closer and closer” to L. This informal explanation served pretty well in beginning calculus, but in order to extend the idea to functions of several variables, we have to be a bit more precise.

Defining the Limit Remember: the pt. (a,f(a)) is excluded! Means that given any tolerance T for L we can find a tolerance t for a such that if x is between a-t and a+t, but x is not a, f(x) will be between L-T and L+T. L+T L L-T (Graphically, this means that the part of the graph that lies in the yellow vertical strip---that is, those values that come from (a-t,a+t)--- will also lie in the orange horizontal strip.) a-t a a+t

This isn’t True for This function! No amount of making the Tolerance around a smaller is going to force the graph of that part of the function within the bright orange strip! L+T L L-T a

Changing the value of L doesn’t help either! L+T L L-T a

Functions of Two Variables How does this extend to functions of two variables? We can start with informal language as before: means that as (x,y) gets “closer and closer” to (a,b) , f(x,y) gets closer and closer to L.

“Closer and Closer” The words “closer and closer” obviously have to do with measuring distance. In the real numbers, one number is “close” to another if it is within a certain tolerance---say no bigger than a+.01 and no smaller than a-.01. In the plane, one point is “close” to another if it is within a certain fixed distance---a radius! r (x,y) (a,b)

What about those strips? The vertical strip becomes a cylinder! (a,b) r (x,y)

Horizontal Strip? L lies on the z-axis. We are interested in function values that lie between z=L+T and z=L-T Remember that the function values are back in the real numbers, so “closeness” is once again measured in terms of “tolerance.” L+T L L-T The set of all z-values that lie between L-T and L+T, are “trapped” between the two horizontal planes z=L-T and z=L+T The horizontal strip becomes a “sandwich”!

Putting it All Together The part of the graph that lies above the green circle must also lie between the two horizontal planes. if given any pair of horizontal planes about L, we can find a circle centered at (a,b) so that the part of the graph of f within the cylinder is also between the planes.

Defining the Limit L+T L-T Means that given any tolerance T for L we can find a radius r about (a,b) such that if (x,y) lies within a distance r from (a,b), with (x,y) different from (a,b) , f(x,y) will be between L-T and L+T. L Once again, the pt. ((a,b), f(a,b)) can be anywhere (or nowhere) !