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# Calculus I: Lesson 5: Tangent Lines and Differentiability

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L5-TangentLines.mws

Calculus I

Lesson 5: Tangent Lines and Differentiability

Example 1
For each of the following functions, we draw the graph of f(x) along with a secant and tangent line for x = a.

a) f(x) = cos(x)

> restart:

> a := 1; > f := x->cos(x); > h := 2.2;
q:= (f(a+h) - f(a))/h;
secline:= x -> f(a) + q*(x - a);
m:= D(f)(a);
tanline:= x -> f(a) + m*(x - a);     > plot([tanline(x), f(x), secline(x)], x=-5..5, color=[blue,green,magenta]); b) and a = 3.

> f:= x -> x^4 -1; > a:= 3; > h:= 2; > q:= (f(a+h) - f(a))/h;
secline:= x -> f(a) + q*(x - a);
m:= D(f)(a);
tanline:= x -> f(a) + m*(x - a);    > plot({f(x), secline(x), tanline(x)}, x = a-1..a+3, color=[blue,red,magenta]); c) and a = 5.

> f:= x -> sqrt(x) ; > a:=5; > h:=7; > q:= (f(a+h) - f(a))/h; secline:= x -> f(a) + q*(x - a); m:= D(f)(a); tanline:= x -> f(a) + m*(x - a);    > plot({f(x), secline(x), tanline(x)}, x= a-4..a+8, color=[blue,violet,magenta]); Example 2
For each of the following functions, plot f(x) and Df(x) on the same axes.

a) .

> f:= x -> x^3 - 7* x^2 + 12*x; > D(f); > plot({D(f)(x), f(x)}, x = 0..5, color=[magenta,brown]); b) f(x) = |x|.

> f:= x -> abs(x); > D(f); > plot({D(f)(x), f(x)}, x = -4..4, color=[magenta,brown]); Example 3
Let ; where x is from [-14,14].

a) Plot f(x) for x in [-14,1 4]. What is the period of f(x)?

> restart:

> f:= x -> 2 *sin(x) - cos(3*x); > plot(f(x), x = -14..14); Period is .

b) Since the period of f(x) is , plot f(x) and D(f) on the same axes

for x in [-1,7].

> D(f); > plot({f(x), D(f)(x)}, x = -.1..7, color=[magenta,brown]); c) When f(x) has a max or min at x = a, what is D(f)(a)?

d) When f(x) is increasing (decreasing) what is the sign of D(f)?

When f is increasing D(f) >0, and when f is decreasing D(f) <0.

Example 4
Let f(x) = if x > 0 and 0 if .

Plot f(x). Use the graph to determine whether D(f)(0) exists.

> f:= x -> piecewise( x > 0, x*sin(1/x), 0); > plot(f(x), x = -0.1..0.1); > plot(f(x), x = -.0001...0001); Based on the plots, we conjecture that f is not differentiable when x = 0.

Example 5
Let f(x) = for x > 0 and 0 for x <= 0.

Plot f(x). Use the graph to determine if D(f)(0) exits.

> f:= x -> piecewise(x>0, x^2 * sin(1/x), 0); > plot(f(x), x = -.00001...00001); Based on the plot, we conjecture that D(f)(0) = 0.

Example 6
Let f(x) = . Plot f(x), the tangent line when x = .5 and

the normal line when x =.5 on the same axes.

> restart:

> f:=x -> 3 - 2*x^2; > D(f)(.5); > f(.5); > t:= x -> -2*(x - .5) + 2.5; > n:= x -> (1/2)*(x - .5) + 2.5; > plot({f(x), t(x), n(x)}, x = -1..1, color=[magenta,brown, wheat]); Example 7
Let f(x) = |cos(x)|. Determine where f(x) is not differentaible.

> restart:

> f:= x -> abs(cos(x)); > plot(f(x), x = -7..7); From the plot we conjecture that f(x) is not differentiable at multiples of and .