AAPT Quiz
2006 Physics Quiz Bowl (Part 1)
Printer Friendly Version
1. The mass of an object is recorded as m = 2.10 x 10
^{4}
kg. This mass has been recorded with how many significant digits?
2
3
4
5
6
2. How tall is a flagpole if the sun is at a 53º angle above the horizon and the shadow is 8.0 meters long?
A. 4.8 m
B. 6.0 m
C. 8.0 m
D. 10.6 m
E. 13.3 m
3. Three students were arguing about the height of a parking garage. One student suggested that to determine the height of the garage, they simply had to drop tennis balls from the top and time the fall of the tennis balls.
If the time for the ball to fall was 1.4 seconds, approximately how tall is the parking garage?
A. 4.9 m
B. 7.0 m
C. 9.8 m
D. 13.8 m
E. 19.6 m
4. An arrow is shot from a bow at an angle of 40º from the horizontal at a speed of 24.0 m/s. Ignoring air resistance, what is the arrow’s maximum height above its launch point?
A. 5.9 m
B. 11.9 m
C. 16.9 m
D. 23.8 m
E. 28.8 m
5. Newton’s First Law is based on the experimental work of which person, who rolled spheres down and up inclines?
A. Galileo
Galilei
B. Christian
Huygens
C. Nicolas
Copernicus
D. Count
Rumford
E. Aristotle
6. An arrow is shot through an apple. If the 0.1 kg arrow changes speed by 10 m/s during the collision (from 30 m/s to 20 m/s) and the apple goes from rest to a speed of 2 m/s during the collision, then the mass of the apple must be
A. 0.2 kg
B. 0.5 kg
C. 0.8 kg
D. 1.0 kg
E. 2.0 kg
7. A car has the velocity versus time curve shown.
Which of the following statements regarding its motion is INCORRECT?
A. The car is moving fastest at 2.0 s.
B. The car is at rest at approximately 5.2 s.
C. The car is speeding up from t = 0 to t = 2.0 s.
D. The car has negative acceleration at t = 4.5 s.
E. The car has no acceleration at the instant t = 2 s.
8. A baseball is thrown by a pitcher with a speed of 35 m/s. The batter swings and hits the ball. The magnitude of the force that the ball exerts on the bat is always
A. zero as it is only the bat that exerts a force on the ball.
B. equal to the gravitational force acting on the ball.
C. larger than the force the bat exerts on the ball.
D. smaller than the force the bat exerts on the ball.
E. equal to the force that the bat exerts on the ball.
9. A deliveryman moves 10 cartons from the sidewalk, along a 10meter ramp to a loading dock, which is 1.5 meters above the sidewalk.
If each carton has a mass of 25 kg, what is the total work done by the deliveryman on the cartons to move them to the loading dock?
A. 2500 J
B. 3750 J
C. 10000 J
D. 25000 J
E. 37500 J
10. A firecracker explodes while in flight along a parabolic path and fragments from it travel in all directions. After the explosion, the center of mass of the firecracker
A. falls directly vertically downward.
B. ceases to exist.
C. lands equidistant from all fragments.
D. has no forces acting on it.
E. continues to move along a parabolic path.
11. The number of seconds from now until the beginning of the next millennium (year 3000) can be approximated as 10
^{x}
. What is
x
?
A. 3
B. 4
C. 10
D. 30
E. 1000
12. Experimental data are taken. Which of the following statements is correct about the precision and accuracy of the data?
A. If the data are precise, then the data must also be accurate.
B. If the data are precise, then the data cannot be accurate.
C. If the data are accurate, then the data must also be precise.
D. If the data are accurate, then it is not possible for the data to be precise.
E. The data does not need be either accurate or precise.
13. A rock is dropped from the top of a tall tower. Half a second later another rock, twice as massive as the first, is dropped. Ignoring air resistance,
A. the distance between the rocks increases while both are falling.
B. the acceleration is greater for the more massive rock.
C. the speed of both rocks is constant while they fall.
D. they strike the ground more than half a second apart.
E. they strike the ground with the same kinetic energy.
14. A book leans against a crate on a table. Neither is moving.
Which of the following statements concerning this situation is CORRECT?
A. The force of the book on the crate is less than that of crate on the book.
B. Although there is no friction acting on the crate, there must be friction acting on the book or else it will fall.
C. The net force acting on the book is zero.
D. The direction of the frictional force acting on the book is in the same direction as the frictional force acting on the crate.
E. The Newton’s Third Law reaction force to the weight of the book is the normal force from the table.
15. A crate of toys remains at rest on a sleigh as the sleigh is pulled up a hill with an increasing speed. The crate is not fastened down to the sleigh. What force is responsible for the crate’s increase in speed up the hill?
A. the contact force (normal force) of the ground on the sleigh
B. the force of static friction of the sleigh on the crate
C. the contact force (normal force) of the sleigh on the crate
D. the gravitational force acting on the sleigh
E. no force is needed
16. A scientist in the International Space Station experiences "weightlessness" because
A. there is no gravitational force from the Earth acting on her.
B. the gravitational pull of the Moon has canceled the pull of the Earth on her.
C. she is in free fall along with the Space Station and its contents.
D. at an orbit of 200 miles above the Earth, the gravitational force of the Earth on her is 2% less than on its surface.
E. in space she has no mass.
17. A pointlike object of mass 2.0 kg moves along the +xaxis with a kinetic energy of 16.0 J. A net horizontal force acting along the xaxis is applied to the object with the forceposition profile shown.
What is the total impulse delivered by the force (units in kg m/s).
A. 40
B. 20
C. 12
D. 10
E. 4
18. A cart is initially moving at 0.5 m/s along a track. The cart comes to rest after traveling 1 m. The experiment is repeated on the same track, but now the cart is initially moving at 1 m/s. How far does the cart travel before coming to rest?
A. 1 m
B. 2 m
C. 3 m
D. 4 m
E. 8 m
19. A 60.0kg ball of clay is tossed vertically in the air with an initial speed of 4.60 m/s. Ignoring air resistance, what is the change in its potential energy when it reaches its highest point?
A. 0 J
B. 45 J
C. 280 J
D. 635 J
E. 2700 J
20. A boy jumps from rest straight upward from a flat, stationary concrete surface. The boy, of mass
M
, leaves the concrete surface with speed
v
and his center of mass rises a distance
d
to the highest point of the motion. How much physical work did the average normal force of contact (N) between the boy’s feet and the concrete do on the boy?
A. Nd
B. Mv
^{2}
/2
C. Nd/2
D. Mgd
E. 0
21. Which of the following is not one of the seven fundamental SI units using the MKS system?
A. Henry
B. Kelvin
C. Ampere
D. Candela
E. Mole
22. During an interval of time, a tennis ball is moved so that the angle between the velocity and the acceleration of the ball is kept at a constant 120º. Which statement is true about the tennis ball during this interval of time?
A. Its speed increases and it is changing its direction of travel.
B. Its speed decreases and it is changing its direction of travel.
C. Its speed remains constant, but it is changing its direction of travel.
D. Its speed remains constant and it is not changing its direction of travel.
E. Its speed decreases and it is not changing its direction of travel.
23. An object
m
, on the end of a string, moves in a circle on a horizontal frictionless table as shown.
As the string is pulled very slowly through a small hole in the table, which of the following is correct for an observer measuring from the hole in the table?
A. The angular momentum of m remains constant.
B. The angular momentum of
m
decreases.
C. The kinetic energy of
m
remains constant.
D. The kinetic energy of
m
decreases.
E. None of the above occur.
24. A person tries to balance vertically each of three long uniform cylinders with equal radii on the end of his finger:
A wood cylinder of mass
m
and length
L
with moment of inertia
I
A bamboo cylinder of mass
m
and length
3L
with moment of inertia
9I
A concrete cylinder of mass
4m
and length
2L
with moment of inertia
16I
Which object is the easiest to balance and why?
A. The wood cylinder is easiest to balance because it has the smallest moment of inertia.
B. The concrete cylinder is easiest to balance because it has the largest moment of inertia.
C. The concrete cylinder is easiest to balance because it is the most massive.
D. The bamboo cylinder is easiest to balance because it has the least density.
E. The bamboo cylinder is easiest to balance because it is longest.
25. A monatomic ideal gas at pressure P = 10
^{5}
Pa is in a container of volume V = 12 m
^{3}
while at temperature T = 50ºC. How many molecules of gas are in the container?
A. 447
B. 2888
C. 6.02 x 10
^{23}
D. 2.69 x 10
^{26}
E. 1.74 x 10
^{27}
Related Documents
Review:
WS 
Drill: Mechanics
WS 
Drill: Waves and Sound
TB 
Schaum's 11th Edition
REV 
Course Objectives
REV 
Cumulative Review
REV 
Drill: Circular Motion
REV 
Drill: Common Variables
REV 
Drill: DC Circuits
REV 
Drill: Dynamics
REV 
Drill: Electrostatics
REV 
Drill: Kinematics
REV 
Drill: Magnetism
REV 
Drill: Metric System
REV 
Drill: Modern
REV 
Drill: Physical Optics
REV 
Drill: Projectiles
REV 
Drill: Refraction and Lenses
REV 
Drill: Rotary Motion
REV 
Drill: SHM
REV 
Drill: Thermodynamics
REV 
Drill: Work and Energy
REV 
Preregistration Survey
REV 
Sample NY Regents Review Questions
Worksheet:
AAPT 
1994 Physics Olympiad Screening Test (Part 1)
AAPT 
1994 Physics Olympiad Screening Test (Part 2)
AAPT 
1994 Physics Quiz Bowl (120)
AAPT 
1994 Physics Quiz Bowl (2140)
AAPT 
1995 Physics Olympiad Screening Test (Part 1)
AAPT 
1995 Physics Olympiad Screening Test (Part 2)
AAPT 
1995 Physics Quiz Bowl (120)
AAPT 
1995 Physics Quiz Bowl (Part 2)
AAPT 
1996 Physics Olympiad Screening Test (Part 1)
AAPT 
1996 Physics Olympiad Screening Test (Part 2)
AAPT 
1996 Physics Quiz Bowl (Part 1)
AAPT 
1996 Physics Quiz Bowl (Part 2)
AAPT 
1997 Physics Olympiad Screening Test (Part 1)
AAPT 
1997 Physics Olympiad Screening Test (Part 2)
AAPT 
1997 Physics Quiz Bowl (Part 1)
AAPT 
1997 Physics Quiz Bowl (Part 2)
AAPT 
1998 Physics Olympiad Screening Test (Part 1)
AAPT 
1998 Physics Olympiad Screening Test (Part 2)
AAPT 
1998 Physics Quiz Bowl (Part 1)
AAPT 
1998 Physics Quiz Bowl (Part 2)
AAPT 
1999 Physics Olympiad Screening Test (Part 1)
AAPT 
1999 Physics Olympiad Screening Test (Part 2)
AAPT 
1999 Physics Quiz Bowl (Part 1)
AAPT 
1999 Physics Quiz Bowl (Part 2)
AAPT 
2000 Physics Olympiad Screening Test (Part 2)
AAPT 
2000 Physics Olympiad Screening Test (Part 2)
AAPT 
2000 Physics Quiz Bowl (2140)
AAPT 
2000 Physics Quiz Bowl (Part 1)
AAPT 
2006 Physics Quiz Bowl (Part 2)
AAPT 
2007 Physics Quiz Bowl (Part 1)
AAPT 
2007 Physics Quiz Bowl (Part 2)
AAPT 
2008 Physics Quiz Bowl (Part 2)
AAPT 
2008 PhysicsBowl (Part 1)
AAPT 
2015 net F = ma Contest
AAPT 
PhysicsBowl 2009 (Part 1)
AAPT 
PhysicsBowl 2009 (Part 2)
AAPT 
PhysicsBowl 2010 (Part 1)
AAPT 
PhysicsBowl 2010 (Part 2)
AAPT 
PhysicsBowl 2011 (Part 1)
AAPT 
PhysicsBowl 2011 (Part 2)
AAPT 
PhysicsBowl 2012 (Part 1)
AAPT 
PhysicsBowl 2012 (Part 2)
AAPT 
PhysicsBowl 2013 (Part 1)
AAPT 
PhysicsBowl 2013 (Part 2)
AAPT 
PhysicsBowl 2014 (Part 1)
AAPT 
PhysicsBowl 2014 (Part 2)
AAPT 
PhysicsBowl 2015 (Part 1)
AAPT 
PhysicsBowl 2015 (Part 2)
AAPT 
PhysicsBowl 2016 (Part 1)
AAPT 
PhysicsBowl 2016 (Part 2)
AAPT 
PhysicsBowl 2017 (Part 1)
AAPT 
PhysicsBowl 2017 (Part 2)
AAPT 
PhysicsBowl 2018 (Part 1)
AAPT 
PhysicsBowl 2018 (Part 2)
AAPT 
PhysicsBowl 2019 (Part 1)
AAPT 
PhysicsBowl 2019 (Part 2)
NY 
January 2006, Part 1
NY 
January 2006, Part 2
NY 
January 2006, Part 3
NY 
January 2007, Part 1
NY 
January 2007, Part 2
NY 
January 2007, Part 3
NY 
January 2008, Part 1
NY 
January 2008, Part 2
NY 
January 2008, Part 3
NY 
January 2008, Part 4
NY 
January 2009, Part 1
NY 
January 2009, Part 2
NY 
June 2006, Part 1
NY 
June 2006, Part 2
NY 
June 2006, Part 3
NY 
June 2007, Part 1
NY 
June 2007, Part 2
NY 
June 2007, Part 3
NY 
June 2008, Part 1
NY 
June 2008, Part 2
NY 
June 2008, Part 3
NY 
June 2008, Part 4
NY 
June 2009, Part 1
NY 
June 2009, Part 2
NY 
June 2010, Part 1
NY 
June 2010, Part 2
NY 
June 2010, Part 3
NY 
June 2011, Part 1
NY 
June 2011, Part 2
NY 
June 2011, Part 3
NY 
June 2012, Part 1
NY 
June 2012, Part 2
NY 
June 2012, Part 3
NY 
June 2013, Part 1
NY 
June 2013, Part 2
NY 
June 2013, Part 3
NY 
June 2014, Part 1
NY 
June 2014, Part 2
NY 
June 2014, Part 3
NY 
June 2015, Part 1
NY 
June 2015, Part 2
NY 
June 2015, Part 3
NY 
June 2016, Part 1
NY 
June 2016, Part 2
NY 
June 2016, Part 3
NY 
June 2017, Part 1
NY 
June 2017, Part 2
NY 
June 2017, Part 3
NY 
June 2018, Part 1
NY 
June 2018, Part 2
NY 
June 2018, Part 3
NY 
June 2019, Part 1
NY 
June 2019, Part 2
NY 
June 2019, Part 3

MCAS 2004 Session 1

MCAS 2004 Session 2

MCAS 2005 Session 1

MCAS 2005 Session 2

MCAS 2006 Session 1

MCAS 2006 Session 2

MCAS 2007 Session 1

MCAS 2007 Session 2

MCAS 2008 Session 1

MCAS 2008 Session 2

MCAS 2009 Session 1

MCAS 2009 Session 2

MCAS 2010 Session 1

MCAS 2010 Session 2

MCAS 2011 Session 1

MCAS 2011 Session 2

MCAS 2012 Session 1

MCAS 2012 Session 2

MCAS 2013 Session 1

MCAS 2013 Session 2

MCAS 2014 Session 1

MCAS 2014 Session 2

MCAS 2015 Session 1

MCAS 2015 Session 2

MCAS 2016 Session 1

MCAS 2016 Session 2

MCAS 2017 Session 1

MCAS 2017 Session 2

MCAS 2018 Session 1

MCAS 2018 Session 2

MCAS 2019 Session 1

MCAS 2019 Session 2
PSRC
at
AAPT
Copyright © 19942000
PhysicsBowl Exams
Copyright © 20072023
All rights reserved.
Used with
written permission
.
PhysicsLAB
PDF conversion
Copyright © 19982023
Catharine H. Colwell
All rights reserved
Mainland High School
Daytona Beach, FL 32114