Calculus 3 Multiple Choice Final Exam, questions and answers, guaranteed 100% Pass

SM223 Calculus 3 FINAL EXAMINATION 18 December 2014–15 0755–1055 page 1 of 5
Part I Multiple Choice NO CALCULATOR ALLOWED
Name: Alpha: Instructor:
Instructions: No calculator is allowed for Part I of this exam. Fill in the top part of your
Scantron sheet, including the bubbles for your alpha code and version number. There is room for
your work on this exam. Fill in your answers on the bubble sheet. When you are done with Part I,
hand in your bubble sheet and this exam to your instructor, who will give you Part II. You can
use your calculator for Part II. But you cannot return to Part I.
1. The figure shows a unit square with vertices P1 , P2 , P3 , P4 . The diagonals intersect at Q.
Which one of the listed equations is true?
−−→ −−→ −−→ −−→
(a) P1 P2 + P2 P3 + P3 P4 = P4 P1 t t
−−→ −−→ −−→ P4 @ P3
(b) QP2 + QP4 = P2 P4 @
−−→ −−→ −−→ @
(c) P1 Q + QP3 = P1 P4 Q @t
−−→ −−→ @
(d) |P1 P2 + P2 P3 | = 2 @
−−→ −−→ −−→ P @t P2
(e) P1 P2 + P2 P3 = 2 P1 Q 1 t


−−→ −−→
2. For the configuration of points in Problem 1, what is the vector projection of P1 Q onto P1 P2 ?
−−→
(a) P1 P2
−−→
(b) 2 P1 P2
−−→
(c) 12 P1 P2
√ −−→
(d) 2 P1 P2
1 −−→
(e) √2 P1 P2

−
→
3. A plane has normal vector N = ha, b, ci and contains the point P0 = (x0, y0 , z0). Suppose the
−−→
point P = (x, y, z) is also on the plane. Construct the vector P0 P = hx − x0 , y − y0 , z − z0 i
from P0 to P . Which one of the following statements must be true?
−
→ −−→ → 
−
(a) N × P0 P = 0 @ @ N
−
→ −−→ − → @ @
(b) N × P0 P = 0 @ @
−
→ −−→ − @ P0 uX @
→ XXz u@
(c) N · P0 P = 0 @
−
→ −−→ @ P @
(d) N · P0 P = 0 @ @
−
→ −−→ @ @
(e) | N + P0 P | = 0 @ @

4. What is the distance between the origin and the point where the xy-plane intersects the line
with parametric equations x = 3t, y = 4t, z = 6t − 12 ?
(a) 15
(b) 5
(c) 7
(d) 10
(e) 6

, SM223 Calculus 3 FINAL EXAMINATION 18 December 2014-15 0755–1055 page 2 of 5
Part I Multiple Choice NO CALCULATOR ALLOWED
5. The two lines
−
→
r 1(t) = h1 + 4t, 2 + 5t, 3 + 6ti and −
→
r 2 (t) = h − 6 + 7t, −6 + 8t, −6 + 9ti

intersect at the point (1, 2, 3). Which one of the listed vectors is perpendicular to the plane
that contains both lines?

(a) h1, 2, 3i × h−6, −6, −6i
(b) h1, 2, 3i × h7, 8, 9i
(c) h4, 5, 6i × h−6, −6, −6i
(d) h1, 2, 3i × h4, 5, 6i
(e) h4, 5, 6i × h7, 8, 9i

6. Which one of the listed vector-valued function defines a circle?
(a) r(t) = h3 cos(2t), 3 sin(2t), 4i
(b) r(t) = h3 cos(2t), 4 sin(2t), 0i
(c) r(t) = h3 cos(t), 3 sin(t), 4ti
(d) r(t) = h3 cos(t), 4 sin(t), 0i
(e) r(t) = h3 cos2 (t), 3 sin2 (t), 4ti

7. The position of a particle is r(t) = 2e2t i + 3t2 j. What is the acceleration at t = 0?
(a) 2i
(b) 2i + 6j
(c) 8e i
(d) 6j
(e) 8i + 6j

8. If g(x, y) = x3 y 2 − y, then what is gyx (2, 3) ?

(a) 54
(b) 107
(c) 108
(d) 72
(e) 71

9. At a certain instant, the base of a rectangle is 4 cm and increasing at a rate of 3 cm/hr, while
the height is 6 cm and decreasing at a rate of 2 cm/hr. At what rate is the area of the rectangle
changing in units of cm2/hr?
(a) 26
(b) 10
(c) 0
(d) 24
(e) 14