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AP Physics B Free-Response Index
Rubric
B5
B6
B7
deBroglie
wavelength;
photoelectric effect
Fluids & projectiles
Thermo cycle
Mirror – ray diagrams
Momentum
conservation
Mechanics; springs
LAB: magnetic field
measurement
fluids
Lens – ray diagrams
Thermo cycle
Nuclear radiation
LAB: determine the
focal length of a lens
Positron-electron pair
annihilation
LAB: determine the
index of refraction of
a slab of glass
Pair production
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B4
Current balance
Dynamics; inclined
plane
dynamics
Dynamics; modified
Atwood’s w/ spring
Kinematic, dynamics
& graphs
Mass spectrometer
q moving thru a B
field
LAB: World class
runner – 100 m dash
Energy, momentum
conservation; friction
dynamics
Circuits; RC circuit
RC circuit
Electrostatics; field
and potential
Electrostatics
Torricelli’s theorem
Torricelli’s theorem
Thermo; isometric
process
Snell’s Law; graphical
derivation of n;
Thin film interference
Energy of photon;
wave properties of an
electron
Thermo; PV diagram
Reflection/refraction;
Double slit interf.
pendulum
Electrostatics – point
charges
LAB: double slit
interference
LAB: two source
interference
Kinematics,
dynamics, graphs
Thermo; isobaric
process
Thermo; PV diagram
deBroglie
wavelength;
Electron/positron
annilihation
Energy levels;
Photoelectric effect
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2005
B3
Springs & Energy
LAB: graphical
derivation of g
2005b
B2
Collisions
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2006b
2006
2007b
2007
2008b
2008
B1
pendulum
Electrostatics – point
charges
buoyancy
Fluid flow: Torricelli’s
theorem
PV=nRT graph
Photons and
Photoelectric effect
PV=nRT graph
B8
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2004
B1
Energy conservation,
rollercoaster, circles
B2
B3
Pressure and depth;
Newton’s laws
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2004b
2003
B5
B6
Two source
interference
PV-diagram, thermo
LAB: Photoelectric
effect
Faraday’s Law
PV-diagram, thermo
Compton scattering
R and C in circuit
LAB: Standing waves
in tube
Rail Gun: FB, workenergy
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2003b
LAB: circuit to power
motor
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2002
F = ma, kinematics
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2002b
2001
collision with impulse
kinematics and
energy
2001 - circular
motion, projectile
U vs. x, energy,
proj.motion,
conical pendulum,
projectile motion
momentum,
projectile
Fluids: pressuredepth, gauge
pressure,
Archimedes’s Princ.
LAB: concave mirror
image
PV diagram, energy
F = ma, accel, FN,
F=ma, impulse,
kinematics
B7
Pressure and depth;
Newton’s laws
Faraday’s Law
Energy conservation,
rollercoaster, circles
B4
single & double lens
E in capacitor, vector
motion of electron,
Two light bulbs, rated
in Watts, in series
and parallel
converging lens with
virtual image then
with real image
light bulbs in series
and parallel
electrical forces,
fields, potential
submarine window as
mirror, lens
wavelength
dependent refraction
PV diagram, energy
Bernoulli’s princ.,
power, fluid flow
B and E fields on
proton
LAB: spring and
Archimedes’ Principle
capacitor E, V, C,
electron released:
find F, energy
LAB - temp
dependent resistor
used as thermometer
Canister of gas:
nct, mct, PV=nRT,
ht. of fusion
atomic energy diag.,
HeNe laser
Atomic energy
diagram, range of
visible light
photon-electron
collision
LAB: deBroglie
wavelengths, atomic
energy diagrams
nuclear reaction,
mass defect.
gas thermo - types of
processes.
B8
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1999
1993
1994
1995
1996
1997
1998
2000
B1
B2
(2000) kinematics
graph, projectile
1999 – kinematics,
work, en, friction
1998 – acceleration
on table, projectiles
1997 – F vs D – find
work, etc.
M
M
A
B
1996 - elastic and
inelastic collision on
air track
1995 – air track,
inelastic collision,
energy in spring
1994 - kick soccer
ball over fence – proj.
1993 – elevator,
constructing d, v, a
graphs for motion
B3
B4
B5
B6
B7
B8
LAB: determine
specific heat of liquid.
Incline, forces,
friction.
CRT, electron
projectile in E field. B
field
force on charged
particle in E field.
LAB: Centripetal
force
LAB: Hooke’s law
toaster circuit,
hooking up.
arc track, energy
ideas, friction work
E fields & Potential
of point charge
RC circuit. dielectric
refraction, thin film.
Elec, Mag field on
particle. Mass
spectrometer.
Photoelectric effect
Energy on hill,
induction
LAB: Energy transfer
by GPE. Specific heat
Spring, force on
current in B field.
Double slit
interference
Acceleration on a
roller coaster.
A: photoelectric
effect graph;
B: relativistic motion.
control chgd particle
with B & E fields
radioactive decay,
half life
142 – bulbs in circuit.
Drawing, Ohms law.
use resistors to heat
water – draw circuit,
do calculations
Hook up specific
circuit. Ohm’s law
centripetal force on a
turntable
Refraction and
diffraction Lab
experiments – design
Standing waves on a
string.
ball swinging
directions of V and a
convex lens,
concave mirror, draw
and calculate
Gas cycle, heat
engine
diff grating
interference, Bohr
level.
A – discuss
experiment, pick from
3.
energy levels
alpha decay,
energies, momentum
gas in a can, moles
Millikan experiment
Energy level diagram,
de Broglie
Heat engine, Carnot
efficiency, power
resonance in a tube.
work to acc
electrons, control by
B field
path of light in water,
TIR, lens under
water.
motional emf,
induced E, Lenz’s
Law
refraction in glass
and  dependence
gas process, work
and heat in cycle
(mistake)
X ray tube, Compton
scattering
B force on electron.
146 B
forces on
wire and
particle.
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1991
1990
1988
1985
1986
1987
1989
1992
B1
1992 – vertical circle,
tension, centripetal
motion
B2
conservation of
momentum, energy,
during collision and
separation.
B3
Heat engine, eff,
heat absorption by
water.
1990 - inelastic
collision projectile
chg particle doing
projectile path betw
charged plates
ohm’s law, power
1989 -Centripetal
motion, projectile.
electric force,
potential, work
electrical –
mechanical energy
equivalence, Ohm
1988 - helicopter
vertical acceleration,
tension, kinematics
ball bounce, energy
lost, specific heat.
Modified Atwood’s
machine
forces, field, potential
of point charges.
1985 – ballistic
pendulum
static equilibrium,
acceleration on
incline, energy conv
CRT, E, B, field on
electron
elec power, fusion,
heat flow
control of charge
with E & B fields.
Energy in spring,
projectiles
B5
Energy level diagram,
transitions
1991 – monkey static
equilibrium,
centripetal accel
1986 - Atwood’s
mach, tension,
acceleration
B4
RC circuit, beginning
& end
Heat movement,
specific heat
Circuits, ohm’s law
e field, work, energy,
forces
battery, get intern
resistance, ohm’s
law, draw circuit
gas cycle, work
done, efficiency
Nuclear alpha decay,
equation, de Broglie
, energy, Rutherford
scattering
accelerated elect.
Resulting e-m waves,
energy
B6
convex lens,
concave mirror,
diagram & calc’s
2 slit interference,
photoelectric work
function
reflection, refraction,
thin film interference.
Thermo – PV
diagram, work done
in various processes
Nuclear decay,
energy, rest mass.
B field of wire, force
on moving charged
particle
refraction, crit angle,
new medium
Photoelectric effect,
calculations
Ohm’s law, Q=It
refraction, speed,
critical angle
Photoelectric effect,
graphical calc
Induction, forces on
wire in B field
Specific heat, flow,
phase change.
Carnot cycle, PV
diagram
double slit
interference in air and
water.
convex lens, image
formation, graph di vs
do
Concave and convex
lenses – diagrams
and calculations.
energy level
transitions, photons
B7
B8
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1984 - vertical circle,
projectile
1983 – friction, F =
ma, tipping
momentum cons,
elastic coll. angles
inelast coll, energy in
spring, shm.
1982 (left) sprinter,
kinematics graph.
1981 – friction, work,
energy
1980 - static
equilibrium
1979 – potential &
Kinetic energy of
projectile
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Vertical circular
motion
1977
B2
B3
heating water,
change of state, time,
ohm’s law, power.
ohms law, circuit
B4
B5
B6
e – m forces on chg
part.
refraction, thin film
interference
radioactive decay,
half life, alpha
concave mirror
Photoelectric effect,
calculations of h,
work function . . .
thermo processes
work
upward acceleration,
tension in cables
swing on rope,
tension at lowest
point, energy
Hookup of clock and
radio.
flux, induction
springs, energy,
momentum cons in
explosion
stat equil of charged
particle in electric
field
circuits – power,
ohm’s law
convex lenses, ray
diagrams
Using one graph,
sketch its companion
Nuclear decay, cons
of momentum, calc of
energy
circuits and
connections
photoelectric eff.
Data and graph
muons, modern
physics, relativity
F = ma
1977 work-energy,
kinematics
Projectile; inelastic
collision
centripetal force,
banked road.
convex lens
B7
four modern phys
experiments –
choose 1 and explain
Energy absorption,
specific heat.
kin theory, press.
electric & magnetic
forces on charged
particles
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1981
1978
1979
1980
1982
1983
1984
B1
capacitor
e-m forces, work,
fields
Induced emf
Ohm’s law, power,
spec ht, thermo
gas laws, p-v
diagram, work
Concave mirror; ray
diagram
Interference of sound
waves. 2 pt sources
refraction
Charged spheres,
elec forces.
Photon collision with
mass
Bohr model;
deBroglie wavelength
Relativity and modern
physics – sketching
graphs
B8
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Elevator; Atwood’s
machine
1975-friction, energy,
kinematics
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1974
1975
1976
B1
B2
Cons of momentum;
bullet block combo
B3
circuits
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B5
B6
B7
Waterfall: Grav pot
energy converted to
thermal energy
Converging lens
Ray diagram
Photoelectric effect
energy levels,
transitions, photons
electrical work,
centripetal motion,
mass spectrometer.
pendulum, shm,
energy, centripetal.
Thermo; PV diagram
Mechanical power of
ski lift
Standing waves in
pipes
Wave-particle duality
of radiation and
matter
Mass spectrometer
electric field, work
Thermo processes,
gas laws
single and double slit
interference
Electron moving in a
B field
Converging lens
Ray diagram
Experiment:
determine # of
photons/sec in a light
beam
Pendulum; dynamics
1973
B4
Electrostatics; lines of
equipotential
Calorimetry - GRAPH
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This year’s free-response section contained two-parts: Part A contained five “major” questions and seven “minor” questions.
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This year’s free-response section contained two-parts: Part A contained five “major” questions and seven “minor” question.
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Induced variable
current
1972
Electron moving
through E & B fields
1971
Mechanics – energy
& vertical circles
1970
Mechanics – friction
This year’s free-response section contained two-parts: Part A contained five “major” questions and seven “minor” question.
B8