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April 23, 2008 Physics 207
EXAM 3
Please print your name and section number (or TA’s name) clearly on the first page.
Show all your work in the space immediately below each problem. Your final answer must be
placed in the boxes, when provided. Problems will be graded on reasoning and intermediate steps as
well as on the final answer. Be sure to include units wherever necessary, and the direction of vectors.
Each problem is worth 20 points. Try to be neat! Check your answers to see that they have the
correct dimensions (units) and are the right order of magnitude. You are allowed one sheet of notes
(8.5” x 11”, 2 sides), a calculator, and the constants in this exam booklet. The exam lasts exactly 90
minutes.
Constants:
Acceleration due to gravity at the earth’s surface: g = 9.81 m/s” Ne
SCORE:
Problem 1:
Problem 2:
Problem 3:
Problem 4:
Problem 5:
TOTAL:
Don't open the exam until you are instructed to start.
"Whatever you dream you can do begin it. Boldness has genius, power and magic in it. Begin it
NOW.” eee ee eevee Goethe
A uniform rectangular beam of length L= 5 m and mass M=40 kg is supported but not attached to the two posts which are length D=3 m apart. A child of mass W=20 kg starts walking along the beam. a) Assuming infinitely rigid posts, how close can the child get to the right end of the beam without it falling over? [Hint: The upward force exerted by the left on the beam cannot be negative – this is the limiting condition on how far the child can be to the right. Set up the static equilibrium condition with the pivot about the left end of the beam.] c) For the motion given in part b), what is the child’s maximum kinetic energy? d) Suppose an adult can push the child in the direction of child’s motion just when the child passes through θ=0. To achieve maximum height for the child, approximately how many times should the adult push the child during a time period Q which is much longer than the natural oscillation period of the swing? [Hint: Think resonance.] First Name: Last Name: Section: a7
Problem 3
a.) Suppose we have a massive rope attached to the ceiling. The bottom end of the rope dangles in
midair. The mass of the rope is 2.7 kg and its length is 4.5 meters. The bottom end of the rope is
shaken and then released to produce a pulse that travels up the rope. What is the speed of the pulse
when it is halfway up the rope? (6 pts)
are) 4,
MM
Te breight ot ‘ope below
og ae sadn dork i
Zz va eb vu pe Wee ,
t= “Ie e
Tae WA
one FE - VE 7 ES
w/y.
Here’s a new question.
b.) The figure shows a snapshot graph at ¢ = 0 s of a sinusoidal wave traveling to the right along a
string at 50 m/s. Write the equation that describe the displacement D(x, #) of this wave. Your
equation should have numerical values, including units, for all quantities except x and f. (8 pts)
D(x, t=0)in mm
5 peor oe =-TT
Dhys) = MN 2 (%y-wt +f) 2
we ee. et ewe
Dine) <b laps k= F=° | T =
Sa 17
Ah = Su
DA, 4) =| 6-5 bal’ M- for 2)
First Name: Last Name: Section: w 8
c.) What is the maximum acceleration of any portion of the string described in part b ? (6 pts)
Ze
ap 2 - 0.005 Gor)” a. (x-s sot)
at ae = |
"A za
Ma autel = 12.0 [-
Firs\Name: Last Name: Section: =z 11
Problem 5
A ball hangs from a balance. When the ball hangs in the air, the balance reads 0.1 N. When the ball is
lowered into water, the balance reads 0.07 N. The density of water is 10° kg/m’.
oN Lk's esis % do prt "LY (ab.
o2N o2Nn p V4. = ©.
, (’- /. ) v4 - oot
= Vo 0-03. = AIT
3 “y at
a.) What is the ball’s density? (4 pts) fe dg r
m Oo. /4.3_ > Biwo ww
fp? Vv - ZB 1ws? 3300 Kah,
b.) What is the radius of the ball? (4 pts)
« ( O%y3 /2, =
© Xa pyeo yy FB] D2 om 7 os wm”
Here’s a new question:
c.) Water is flowing at a speed of 4.0 m/s through a 10.0 cm diameter pipe. The pipe branches to form
two pipes each of 5.0 cm diameter. Find the flow speed in the 5.0 cm diameter pipes. (4 pts)
Vv A = Ve AS
/ f
ime 2 wre
t-te Ae ae nM e.0 w/e,
Zz aoa 5
A, 2 ry
~ ar tf oY ~
Sy =) = 20,
First Name: Last Name: Section: gm i2
d.) A container is filled with oil and fitted on both ends with pistons. The area of the left
piston is 10 mm”; that of the right piston 10,000 mm’, What force must be exerted on
the left piston to keep the 10,000-N car on the right at the same height? ( 4 pts)
10.000 N
A = 10,000 mm?
Circle the correct answer:
—~
iON / 100N 10,000N —-10°N 10°N insufficient information
e.) A blood platelet drifts along with the flow of blood through an artery that is partially blocked by
deposits. As the platelet moves from the narrow region to the wider region, it experiences: ( 4 pts)
Circle the correct answer:
Ca nse ia presse, no change in pressure. a decrease in pressure.