),;
1210-90 Exam 2
1•__ \/
Fall 2012
7
Name
Instructions. Show all work and include appropriate explanations when necessary.
work in the space provided. Please circle your final answer.
Please try to do all
1. (l4pts) For this problem, consider the function
(a) (4pts) Find
(Xj
f’(z).
()()
x(l)c)
Hx
—
-
(b) (4pts) Find the critical point(s) of
f(x).
OL—x
=(H-)Ci-?(S)
z
(c) (2pts) Fill in the blanks:
acceptable aiswers.
f(x)
is increasing on the interval
( ...i
J.... ).
Note: ± are
(d) (4pts) Use the First Derivative Test to classify each of the critical points you found above as a
local maximum or a local minimum.
sq
—
LS
cJ
I
(O2tt
-{.LV’..
1t4t
2. (lOpts) Now consider the function
f (x)
(a) (4pts) Find
2 x.
cos
2tsy (-Cx)
1-
-2
toSX
t
(b) (4pts) Find the inflection point(s) of
Otos?(
2
°
2
2x
f”(x).
KLf)C
S,tce-
=
f(x) or show that there are
tOxI
qkocx t-Z.cLLtx
“ (x) >
(c) (2pts) Fill in the blanks:
acceptable answers.
no inflection poiits.
(
(3
(
f(x)
is concave up on the interval
1
(
Ef
±..f
).
Note: ±Do are
3. (l2pts) Consider the function
f(x)
(a) (6pts) Find the critical points of
ô-f’
t
5
A
+1
f(x).
x—
(b) (6pts) Find the extreme values of
X2“i—
—
=
‘
f(x) on the interval [1,3]. Max=
‘
lt3’]. 0
I
Min=
ff
—
ttve-S
/3
o-
foc
3fl1,
4. (l2pts) Billy Joe wants to build a rectangular pig pen up against the side of his cabin; only three sides
of the enclosure are fence since the side of his cabin will form a fourth wall (see picture below). He
has 20 feet of fence. What dimensions (labeled x and y in the picture below) should Billy Joe make
his fence to maximize the area enclosed?
1A csa-w1 4p
CABIN WALL
XIJX
1
2-o
--‘
==
Atx) o-Z)
A’(?c 2-oLbc
10
fr’ s4-t
2-Ox—2-x
.Lb
Jp
o 4c
j-CA._
0 L L0
i
Wi’i,c.
OCV
—.:0”
5. (lOpts) Consider the function
(a) (3pts) Find
f(x)
=
f’(x).
(b) (4pts) Find the value of c which satisfies the conclusion of the Mean Value Theorem on the interval
[1,2].
(c) (3pts) Explain in one sentence why there is no value of
Mean Value Theorem on the interval [—1, 1].
s-o-
chvr5
c
k- tL
“i-
MVT
o
z
—
-
c&-O
which satisfies the conclusion of the
- o
-‘
6. (l5pts) For this problem, consider the definite integral
f(3x2
—
2x) dx
(a) (6pts) Approximate the definite integral above using a Riemann sum. Use the partition of 3
subintervals of equal length with the sample points being the right end points of the subintervals.
3-0
3
—
D
(b) (6pts) Evaluate the definite integral using he Fundamental Theorem of Calculus.
-
(c) (3pts) What is the average value of the function
-
(3 - z)
3
f(x)
=
2
3x
-
—
2x on the interval [0,3]?
(1
)
7. (lOpts) A 6 foot-tall man tosses a ball up in the air with a velocity of 10 feet per second. Note: The
acceleration of gravity is -32 feet per second per second (negative because it acts downward).
(a) (4pts) Find an expression for v(t). the velocity of the ball as a function of time (in seconds).
‘.L
0
v1o)to
(b) (4pts) Find an expression for h(t), the height of the ball as a function of time (in seconds).
k&i-)
k-u)
øF4
Lti-)-
—
1-IDt-41
/;
(c) (2pts) At what time does the ball hit the ground? (Hint: Use the quadratic formula)
0
-
/O
—Ito 1-j-lO1 1•
—32-
.1—
1_?ec1h
3;.-.
8. (l2pts) Find the general antiderivatives of the following functions
(a) (4pts) f(x)
=
2
2 +x
x
x’ +
Fs)
(b) (4pts) f(x)
=
F?c
(c) (4pts) f(x)
•)C
2 + 3)7
x(x
..L
2.
,(x 1-3) tc-
12
9. (5pts) The graph of f(x) is below.
/ f(x)
J—3
dx
2—.
=
zf
Df
fr
z4- (1 e-
2-
4
-
v1Ie)
/