Review Test 3: 6 Multiple Choice: Series: Convergence, Divergence, Absolute Convergence, Conditional Convergence, Sum (geometric, telescoping) Free Response: 1. L’Hopital – recognize and apply 2. Improper Integrals – recognize type of improper integral, compute improper integrals using CORRECT notation 3. Series – use known tests (alternating series, root, ratio, p-series, limit comparison, integral, basic comparison, geometric, basic divergence) to determine convergence 4. Taylor Polynomials and Series – Give Taylor polynomials using given information (values, functions, etc); be able to find the error; radius and interval of convergence
31
Embed
Review Test 3: Convergence, Divergence, Absolute ...
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
Review Test 3: 6 Multiple Choice: Series: Convergence, Divergence, Absolute Convergence, Conditional Convergence, Sum (geometric, telescoping) Free Response: 1. L’Hopital – recognize and apply 2. Improper Integrals – recognize type of improper integral, compute improper integrals using CORRECT notation 3. Series – use known tests (alternating series, root, ratio, p-series, limit comparison, integral, basic comparison, geometric, basic divergence) to determine convergence 4. Taylor Polynomials and Series – Give Taylor polynomials using given information (values, functions, etc); be able to find the error; radius and interval of convergence
Find a Taylor series for cos (x2) centered at x = 0: Find a Taylor series for e2x centered at x = 0:
Find the Taylor polynomial P5(x) for f (x) = xcosx2. Find the nth Taylor polynomial Pn for the function f (x) = e–x Find the nth Taylor polynomial Pn for the function f (x) = sinh x
Find the nth Taylor polynomial Pn for the function f (x) = ln (1 – x) Give the 5th degree Taylor polynomial for f (x) = sin(x) centered at 0. Give the 5th degree Taylor polynomial for f (x) = ex centered at 0.
Give the 5th degree Taylor polynomial for f (x) = ln(x+1) centered at 0. Give the 5th degree Taylor polynomial for f (x) = cos(x) centered at 0.
( ) ( ) ( )2 1 2 2 2 1f , f ' , f ''= − = = − Give the 2nd degree Taylor polynomial
for f centered at 2. Rewrite f (x) = 3x3 +2x2 – x + 1 in powers of (x – 2).
Create the 3rd degree Taylor Polynomial for f (x) = arctan(x) centered at x = 0.
( ) ( )( )n 1
n 1n
cR x x
n 1
f
!
++=
+
Use the Lagrange formula to find the smallest value of n so that the Taylor polynomial of degree n for f (x) = cos (x) centered at x = 0 can be used to approximate f (x) within 10 –4 at x = 1.
Use the Lagrange formula to find the smallest value of n so that the nth degree Taylor Polynomial for f (x) = ln (1 + x) centered at x = 0 approximates ln (2) with an error of no more than 0.01.
Which term is truncated if we want to approximate the sum of ( )n 13
n 1
12n 1
+∞
=
−−∑
with an error of less than 11000
?
1. State the indeterminate form and compute the following limits :
a. ( )
n
n 4
n 2
lnl im→∞
+
+
b. ( )2n
n3nl im
→∞
c. 2n
n
31n
l im→∞
⎛ ⎞+⎜ ⎟⎝ ⎠
d. ( )( )x 0
x 2x
x 2x
sinl im
sin→
−
+
e. 2x
2x 0
e 12x
l im→
−
f. x
x 0
1x
l im+→
⎛ ⎞⎜ ⎟⎝ ⎠
g. ( )x 3
2x 0
3e 3 x
x
/
l im→
− +
h. 2
x
xx
l imln→∞
i. ( )
x
xx 0
1 x e
x e 1l im→
+ −
−
j. ( )
x 0
4x
x
arctanl im→
2. Give the exact value of 0
12nn
∞
=∑ .
3. Give the exact value of ( )2
11n n n
∞
= +∑ .
4. Give the exact value of ( )
2 3nn
ncos∞
=
π∑ .
5. Evaluate each improper integral, and explain why it is improper. Use correct notation.
a. 2
21
1dx
x−∫
b. 1
0 6
1dx
1 x−∫
c. ( )
7
25
14dx
x 6−∫
d. 27
2 3
0
x dx/−∫
e.
4
0
1dx
4 x−∫
f. 20
1dx
1 x
∞=
+∫
g. 5
2
dxx 2
=−∫
Notes for series “growth”: Let p(k) be a polynomial in k. rk for r > 1 grows much faster than p(k) k! grows much faster than rk, p(k) kk grows much faster than the others Hence,
( ) ( ) ( )k k
k k
k k
p k p k p k
kr k
r r kk k k
, ,!
!, ,!
∑ ∑ ∑
∑ ∑ ∑
ALL converge rapidly.
Determine if the following series converge absolutely, converge conditionally, or diverge?