Infinite series, improper integrals, and Taylor series

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Chapter Infinite series, improper integrals, and Taylor series. Determine which of the following sequences converge or diverge (a) {e n } (b) {2 n } (c) {ne 2n } (d) { 2 n } (e) {n } (f) {ln(n)} 2.2 Which of the following series converge and which diverge? Give a reason. (a) n (b) 3 n (c) 3 n (d). n (e). n (f) ( ) 2 3 n.3 Using the spreadsheet or a hand-drawn sketch, compare the areas represented by the following integral and series. x dx, 2 k 2. Draw your sketch in such a way that the convergence of the integral will imply convergence of the series. (Hint: what kind of comparison should be set up? This will determine how you sketch the bar graph representing the series alongside the function y = f(x) = /x 2 v.25. - January 2, 2 k=

Math 3 Problems Chapter.4 Use the spreadsheet to show the first terms in the alternating harmonic series, S = ( ) k+ k = 2 + 3 4 +.... k= (You can use a bar graph to represent these terms.) On the same graph, show the first partial sums, i.e. the graph of n S n = ( ) k+ k. To what value does this alternating harmonic series converge? k=.5 Use the spreadsheet to show the first terms in the series, S = ( ) k+ (2k ) = 3 + 5 7 +.... k= (You can use a bar graph to represent these terms.) On the same graph, show the first partial sums multiplied by 4, i.e. the graph of Show that this converges to π. 4(S n ) = 4 ( n k= ) ( ) k+ (2k ) Find how many correct decimal places are achieved by adding up the first thousand terms of this series...6 The trunk of a tree gets wider by adding a new growth every year. (In cross section, these show up as rings, one ring for each year). The first year the trunk has radius inch. In the second year the radius increases by /2 inch, in the third year by /4 inch, and so on every year. What is the trunk radius for a 2 year old tree? For a 5 year old tree? How big can the radius of the trunk get if the tree keeps growing this way indefinitely? What will the cross-sectional area of the trunk be after a long time? v.25. - January 2, 2 2

Math 3 Problems Chapter.7 A symmetric flat snowflake starts out as a square of size millimeter. Every time step a new branch is added on the furthest edge of each of the previous branches. Each branch is a little square whose area is /f times the area of its parent branch. (See Figure..) What is the area of the snowflake after a very long time? For what values of f is this final area finite? What is the final area in the case that f = 4? Figure.: A symmetrical snowflake, for problem.7.8 Consider the integral A = D x p dx (a) Sketch a region in the plane whose area represents this in each of the following cases: (i) If p > and (ii) p <. (b) Evaluate the integral for p. (c) How does the area A depend on the value of D in each of the cases (i) and (ii). Does the area increase without bound as D increases? Or does the area approach some constant? (d) With this in mind, how might we try to understand an integral of the form x p dx v.25. - January 2, 2 3

Math 3 Problems Chapter.9 Which of the following improper integrals converge? Give a reason in each case. (a) (d) x.dx (b) e x dx (e) xdx e 2x dx (c) (f) x 3 dx xe x dx. The gravitational force between two objects of mass m and m 2 is F = Gm m 2 /r 2 where r is the distance of separation. Initially the objects are a distance D apart. The work done in moving an object from position D to position x against a force F is defined as W = x D F(r) dr. Find the total work needed to move one of these objects infinitely far away.. Gabriel s Horn is the surface of revolution formed by rotating the graph of the function y = f(x) = /x about the x axis for x. (a) Find the volume of air inside this shape and show that it is finite. (b) When we cut a cross-section of this horn along the xy plane, we see a flat area which is wedged between the curves y = /x and y = /x. Show that this cross-sectional area is infinite. (c) The surface area of a surface of revolution generated by revolving the function y = f(x) for a x b about the x axis is given by S = b a 2πf(x) + (f (x)) 2 dx Write down an integral that would represent the surface area of Gabriel s Horn. (d) The integral in part (c) is not easy to evaluate explicitly - i.e. we cannot find an anti-derivative. However, we can show that it diverges. Set up a comparison that shows that the surface area of Gabriel s horn is infinite. v.25. - January 2, 2 4

Math 3 Problems Chapter.2 The Taylor series for the function sin(x) is given by sin(x) = x x3 3! + x5 5! x7 7! +.... Find the Taylor series of y = cos(x) by differentiating this function. Using the spreadsheet, plot (on the same graph) the following functions: y = cos(x), y = T (x) y = T 2 (x), y = T 3 (x), y = T 4 (x) where T k is the polynomial made up of the first k (nonzero) terms in the Taylor series for cos(x)..3 An expansion for the function e x is given by e x = + x + x2 2 + x3 6 +... = Use the first seven terms of this series to estimate the value of the base of natural logarithms, i.e. of e. n= x k k!..4 Find the Taylor series for each of the following functions about x = : (a) f(x) = x cos(x), (b) e x2 (c) (/x) sin(x) (d) Use your results to find a Taylor series representation for each of the following integrals: (i) x x cos(x)dx, (ii) x e x2 dx. v.25. - January 2, 2 5

Math 3 Problems Chapter.5 Find the Taylor series at x = of the following functions: (a) f(x) = e x2 /2. (b) f(x) = ln( + x). (c) f(x) = x sin x. (d) f(x) = ex + e x. 2.6 Using the Taylor series of f(x) near a point x, the value of a smooth function f(x) in the vicinity of x can be approximated by f(x ), f (k) (x ) (where f (k) (x) is the k th derivative of f(x)), and the distance between x and x, x = x x : f(x) = f(x ) + f (x ) x + f (x ) 2! ( x) 2 + f (x ) 3! ( x) 3 + + f(k) (x ) ( x) k + k! where k! = k (k ) (k 2) 3 2 is called the factorial of the integer k. When x << (i.e., when x is very close to x ), ( x) k can become negligibly small. If you only keep the first k terms of the series, the error in throwing away all the terms subsequent to the k th term typically has a magnitude of the same order as x k+. This error can be made as small as you want by keeping more terms in the series. Thus, Taylor series is often used in calculating the approximate value of a function that is not a polynomial. For example, knowing that 25 = 5, we can calculate an approximate value of 26 by using the Taylor series. Note that, 26 = 25 + = 25( + 25 ) = 5 + 25. Now let x = and x = +, thus x = x 25 x = 25 Taylor series and keeping the first three terms: =.4 which is very small. Now using the which yields x x + [( x) ] x=x x + [( x) ] x=x ( x) 2 2! + 25 + 2.4 8 3.42 = +.2.2 =.98. v.25. - January 2, 2 6

Math 3 Problems Chapter Thus, 26 = 5 + 25 5.98 = 5.99. Using a calculator, we found that 26 = 5.9995... which is identical in the first 4 digits. Use the first 3 terms of Taylor series to estimate the values of the following functions (Calculate by hand and compare the result with that obtained by a scientific calculator!) (a) (Hint: = + and = ) (b) e. (Hint:. = +. and e = ) (c) cos(3) (Hint: 3 = π (π 3) π.4 and cos(π) = ) (d) tan (.) (Hint: tan () = π/4, (tan (x)) = /( + x 2 )).7 Find the Taylor series at x =, out to and including the x n term, for the following functions: (a) f(x) = tan x, n = 3. (b) f(x) = (x + )e x, n = 4. (c) f(x) = e x2 2x, n = 3. (d) f(x) = (sin x) 2, n = 6..8 (a) Find a Taylor series for the function f(x) = /( + x 3 ) about x =. Show that this can be done by making the substitution r = x 3 into the sum of a geometric series (S = r k = r ). (b) Use the same idea to find the Taylor series for the function f(t) = /( + t 2 ). (c) Use your result in part (b) to find a Taylor series for the function tan (x). (Hint: recall that tan (x) = x /( + t2 )dt)..9 Let E(x) be the function defined by E(x) = x e t dt. t v.25. - January 2, 2 7

Math 3 Problems Chapter (a) Use the Taylor series about t = for the function e t to write down the analogous Taylor series about t = for the function e t t. (b) Use your result in part (a) to determine the Taylor series about x = for the integral E(x)..2 Growth of the exponential function Consider the exponential function y = f(x) = e x. Write down a Taylor Series series expansion for this function. Divide both sides by x n. Now examine the terms for the quantity e x /x n. Use this expansion to argue that the exponential function grows faster than any power function..2 Find a Taylor series about x = for.22 F(x) = x ln( + t 2 )dt. Use a Taylor series representation to find the function y(t) that satisfies the differential equation y (t) = y + bt with y() =. This type of equation is called a non-homogeneous differential equation. Show that when b = your answer agrees with the known exponential solution of the equation y (t) = y..23 Use Taylor series to find the function that satisfies the following second order differential equation and initial conditions: d 2 y dt 2 + y =, y() =, y () =. (A second order differential equation is one in which a second derivative appears. Notice that this type of differential equation comes with two initial conditions.) Your answer should display y(t) as a Taylor series expansion of the desired function. (You may be able to then guess what elementary function has this expansion as its Taylor series.) v.25. - January 2, 2 8

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