12 10-90 Final Exam
Name
KEV
Spring 2013
Instructions. Show all work and include appropriate explanations when necessary. Answers unaccompa
nied by work may not receive credit. Please try to do all work in the space provided and circle your final
answers.
1. (l6pts) Find the following derivatives. Show your work below and circle your final answer.
(a) (4pts) D(3x
5
3 + 2x)
x
—
(b) (4pts) D(
)
1
(x+’)L) —()(lx)
(x
—
(c) (4pts) D(x
2 cos (3x))
-
)— 3xw(x)
Z,cos(;
x
1
(d) (4pts) D((3x +
5)6)
-
2. (8pts) Compute the following limits. Aiiswers may be +oo or DNE. Show your work below and circle
your final answer.
(a) (4pts) lim
+O
(b) (4pts) lim
x—O
I1b*4
o”
jjq
-
c)O
i
,c )<
jc
Ib4.
)(
—
(
x 2 —1
i
)c-1
>
-
1164
‘f
—
‘C.
1
1
7
V
3. (lOpts) Consider the function
f(x)
=
(
—
(a) (6pts) Find the equation of the tangçnt line to
I
o)
*
41(0) (x)
ipx)
f(x)
rTT =4(.)-
± )
‘
i÷*(.’)=(
2
xy
u.r4
0.
‘/iZi.
4. (6pts) Use implicit differentiation to find an expression for
‘P \,e -c,LcQ4
=
U)
f’(o)
(b) (4pts) Use part (a) above to estimate the value of
L
at x
—
y
=
in terms of x and y if
+1
cf
$)
K
(y
zxy—I)
I2E
3,(2J2_
—
5. (lopts) A farmer has 72 feet of fence and wants to build two pens for his pigs by building one large
rectangular pen and splitting it down the middle with a length of fence. What dimensions (labeled x
and y in the picture below) should the farmer use to maximize the area enclosed? Note: You must
use calculus to get credit!
ii o4A1- 4
MdLLIM.L?€
X)
tv-c.
u=21
SpuL4-4-
---‘
—•
so
Ax9 x(3’o—Lc)=
)(J2.
I
50
2
)(I2-
—
‘tS.
—
6. (24pts) Consider the function
f(x)
(a) (3pts) Find
—
2
6x
—
15x
—
2
f’(x).
3
(b) (3pts) Find the critical point(s) of
f(x).
3(-c--S)
3
(c) (2pts) Fill in the blanks:
acceptable answers.
f(x)
is decreasing on the interval
3(c-c)(,c+))
(EL
).
Note: ±oo are
(d) (2pts) Which critical point is a local minimum?
(e) (3pts) Find
f”(x).
3
(f) (3pts) Find the inflection point(s) of
f(x).
ri’.
(o.r
/
(g) (2pts) Fill in the blanks:
acceptable answers.
f(x)
is con
(h) (6pts) Find the extreme values of
x—I
-
‘
/ye
up on the interval
(
(,Lf8’))
).
Note:
±00
4-
I
f(x)
on the interval [—2, 1]. Max=_____
L’
2-23
Min=_____
are
7. (6pts) Use the graph of p
=
f(x) below to compute
4
J f(x)
c1
dx
(a
I
8. (8pts) Find the following antiderivatives. Remember: +C
-
(a) (4pts) f(4x3
—
6x + 2) dx
± J’ LLAM
(b) (4pts)f(x+1)(x2+2x)5dx
—
LI’
D
ZM- ct
9. (8pts) Evaluate the following definite integrals.
(a) (4pts)
I (x
Jo
—
3x
+
1) dx
I
-F
•
10
11
(b) (4pts)
f
) dx
2
xsin(x
=
CDSu...
0
L7L
11
0
C1H) D
10. (6pts) Evaluate the Riernann sum for f(x) = x
2 + 3 on the interval 1—1, 3] using the partition of 4
subiritervals of equal length with the sample points being the right-endpoints of each subinterval.
£\x=
(0
—1
V
t
.z—
3
1- 4(i)e:i) + ftCL)
4
-i-f3))
11. (26pts) Consider the region R in the first quadrant bounded by y
Figure A below is a rough sketch of the region R.
=
3
y
—
=
(a) (5pts) Find the coordinates (x. y) of the point of intersection of the curves p
labeled P in the sketch below.
2x, and the y-axis.
=
3
—
x2
and p
=
(x ÷ciio
(b) (5pts) Find the area of the region R.
—
x2i
(3cc
_
3
3
-1
(c) (8pts) Find the volume of the solid obtained by rotating the region R around the x-axis.
V{t3-L3c =Tf
-&xx xX
I
+ xsfo(
(d) (8pts) Find the volume of the solid obtained by rotating the region R around the p-axis.
v
2r$(3x—2x’)4x
Z4Wfl(X
3
Figure
2J’I.
Thj)C
2311
3x 10
2x
12. (lOpts) Find the arc length of the curve defined by the parametric equations
x
for 0 <t
9
y =t
—
1.
%t/7
2
z
(LL
t-Lt
I)
3
13. (l2pts) A tank in the shape of aninverted circular cone is filled with water. The tank is 6 feet tall and
has a radius of 3 feet at its rim. How much work is required to pump the water over the top edge of
the tank? To simplify your calculations, use the symbol p to denote the density of water in lbs/ft
.
3
A Li)
= ir
af v.akc.r
6 ft
Jot U h
VL)
’k k
1
We
=
i+
Letq Ii L
AtI’.”U- tk
w+cv ‘*
W(k(Vtk)
(L)
Mvc
4,1(
AJ
I -)
(‘
Jo’
1 Is
ec-.
fL,
k)t1
Th-L ;&
‘I.
-t
‘1
1f
‘I
6
LL)tL
0
lIei
Lt L.
(II
0
2711p
*)k