B Index No Hyperlinks

7/28/2019 B Index No Hyperlinks

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AP Physics B Free-Response Index

B1 B2 B3 B4 B5 B6 B7 B8

2 0 1 0

Spring, Projectile

Buoyancy

ElectrostaticsPV Diagram

RefractionEM Induction

Photoelectric effect

2 0 1 0 b

Cons. Energy,Circular motion

PendulumElectrostatics Electric Circuit

Double Slit Buoyancy Photoelectric effect

2 0 0 9

Experiment

ElectrostaticsRail Gun, Force Work Gas, PV Diagram

Tension, Buoyancy,Density

Double SlitExperiment

2 0 0 9 b

Circular Motion

Electric and MagneticEffects on Charge

Fluid Pressure,Speed . Gas Cycle

Light InterferenceElectron Energy

Levels

2 0 0 8

KinematicsMomentum

Dynamics Springs

Magnetic Experiment

Fluids Projectiles

PV Diagrams Mirrors, Ray Tracing

2 0 0 8 b

Newton’s3rd Law, Conservation

of Momentum

Dynamics Friction Magnetic FieldExperiments

VolumeFlow Rates Lenses Ray Tracing

2 0 0 7

Friction , Kinematics

Mass Spectrometer Circuit

Pressure, Fluid Flow

Gas Laws, Cycles

Lens Experiment,Graphing



B1 B2 B3 B4 B5 B6 B7 B8

2 0 0 7 b

Friction Dynamics

Mass Spectrometer Circuit with Capacitor

Fluids Pressure Flow

rate

Gas Laws, Cycles

Index of Refraction

Graphing

2 0 0 6

Dynamics; modified Atwood’s w/ spring

Experiment:World class runner –100 m dash

Electrostatics; fieldand potential

Snell’s Law; graphicalderivation of n;Thin film interference

Thermo; PV diagram

Energy of photon;wave properties of anelectron

2 0 0 6 b

Experiment: graphicalderivation of g

Energy, momentumconservation; friction

dynamics ElectrostaticsReflection/refraction;

Double slit interf.Thermo; PV diagram

deBrogliewavelength;

Electron/positronannilihation

2 0 0 5

Kinematic, dynamics& graphs pendulumElectrostatics – point

chargesLAB: double slit

interference buoyancyPV=nRT graph

2 0 0 5 b

Kinematics,dynamics, graphs pendulum

Electrostatics – pointcharges

LAB: two sourceinterference

Fluid flow: Torricelli’stheorem PV=nRT graph

2 0 0 4

Energy conservation,rollercoaster, circles

Pressure and depth;Newton’s laws

Faraday’s Law

Two sourceinterference

PV-diagram, thermoPhotoelectric effect

2 0 0 4 b

Energy conservation,rollercoaster, circles Pressure and depth;

Newton’s lawsStanding waves in

tube Faraday’s Law PV-diagram, thermo Compton scattering

2 0 0 3

F = ma, accel, FN, R and C in circuitRail Gun: FB, work-

energyconcave mirror image

expt.PV diagram, energy

Fluids: pressure-depth, gauge

pressure, Archimedes’s Princ.

atomic energy diag.,

HeNe laser



B1 B2 B3 B4 B5 B6 B7 B8

2 0 0 3 b

F = ma, kinematicscircuit to power motor single & double lens

E in capacitor, vector motion of electron,

PV diagram, energy Bernoulli’s princ.,power, fluid flow

Atomic energydiagram, range of

visible light

2 0 0 2

F=ma, impulse,kinematics

U vs. x, energy,proj.motion,

Two light bulbs, ratedin Watts, in series

and parallel converging lens withvirtual image then

with real image

B and E fields onproton

Experiment withspring and

Archimedes’ Principle

photon-electroncollision

2 0 0 2 b

collision with impulsekinematics and

energy conical pendulum,projectile motion

light bulbs in seriesand parallel

submarine window asmirror, lens

capacitor E, V, C,electron released:

find F, energy

Canister of gas:

nc∆t, mc∆t, PV=nRT,

ht. of fusion

deBrogliewavelengths, atomic

energy diagrams

2 0 0 1

2001 - circular motion, projectile

momentum,projectile

electrical forces,fields, potential

wavelengthdependent refraction

lab - temp dependentresistor used as

thermometer

gas thermo - types of processes.

nuclear reaction,mass defect.

2 0 0 0

(2000) kinematicsgraph, projectile

Incline, forces,friction.

RC circuit. dielectric refraction, thin film. Photoelectric effect

experiment todetermine specific

heat of liquid. Elec, Mag field onparticle. Massspectrometer.

1 9 9 9

1999 – kinematics,work, en, friction

CRT, electronprojectile in E field. B

field

Energy on hill,induction

radioactive decay,half life

centripetal force on aturntable

Refraction anddiffractionexperiments – design Gas cycle, heat

engine

1 9 9 8

1998 – accelerationon table, projectiles

force on chargedparticle in E field.

En transfer by GPE.

Specific heat

142 – bulbs in circuit.Drawing, Ohms law.

Standing waves on astring.

ball swingingdirections of V and a

diff gratinginterference, Bohr

level.

146 Bforces onwire andparticle.

1 9 9 7

1997 – F vs D – findwork, etc.

Centripetal force

experiment

Spring, force oncurrent in B field.

use resistors to heatwater – draw circuit,

do calculationsconvex lens,

concave mirror, draw

and calculate

A – discussexperiment, pick from

3.

energy levels



B1 B2 B3 B4 B5 B6 B7 B8

1 9 9 6

M M

A B

1996 - elastic andinelastic collision on

air track

Hooke’s law,experimental

Double slitinterference

Hook up specificcircuit. Ohm’s law

alpha decay,energies, momentum

Millikan experiment

gas in a can, moles

1 9 9 5

1995 – air track,inelastic collision,energy in spring

toaster circuit,hooking up.

Acceleration on aroller coaster.

Heat engine, Carnotefficiency, power. En level diagram, de

Broglieresonance in a tube. B force on electron.

1 9 9 4

1994 - kick soccer ball over fence – proj.

arc track, energyideas, friction work

two parts,photoelectric effectgraph & relativistic

motion.

work to accelectrons, control by

B field

path of light in water,crit ang, lens under

water.

motional emf,induced E, Lenz’s

Law

1 9 9 3 1993 – elevator,

constructing d, v, a

graphs for motion E fields & Potentialof point charge control chgd particlewith B & E fields refraction in glassand λ dependence

gas process, work

and heat in cycle(mistake)

X ray tube, Comptonscattering

1 9 9 2

1992 – vertical circle,tension, centripetal

motion

conservation of momentum, energy,during collision and

separation.

elec power, fusion,heat flow

En level diagram,transitions

CRT, E, B, field onelectron

convex lens,concave mirror,diagram & calc’s

1 9 9 1

1991 – monkey staticequilibrium,

centripetal accel

control of chargewith E & B fields.

Heat engine, eff,heat absorption by

water.battery, get internresistance, ohm’slaw, draw circuit

Nuclear alpha decay,equation, de Broglie

λ, energy, Rutherford

scattering

2 slit interf,photoelectric work

function

1 9 9 0

1990 - inelasticcollision projectile

chg particle doingprojectile path betw

charged platesohm’s law, power

gas cycle, workdone, efficiency

accelerated elect.Resulting e-m waves,

energyreflection, refraction,thin film interference.

1 9 8 9

1989 -Centripetalmotion, projectile.

electric force,potential, work

electrical –mechanical energyequivalence, Ohm

Thermo – PVdiagram, work donein various processes

Nuclear decay,energy, rest mass.

convex lens, imageformation, graph di vs

do



B1 B2 B3 B4 B5 B6 B7 B8

1 9 8 8 1988 - helicopter

vertical acceleration,tension, kinematics

ball bounce, energylost, specific heat. R-C circuit,

beginning & end

B field of wire, forceon moving charged

particle

refraction, crit angle,new medium

Photoelectric effect,calculations

1 9 8

7

1987 – F = ma,accel, tension, frict.

forces, field, potentialof point charges.

Heat movement,specific heatOhm’s law, Q=It

refraction, speed,critical angle

Photoelectric effect,graphical calc

1 9 8 6

1986 - Atwood’smach, tension,acceleration

En in spring,projectiles Circuits, ohm’s law

Induction, forces onwire in B field

Carnot cycle,resulting P-V dia

Concave and convexlenses – diagramsand calculations.

1 9 8 5

1985 – ballisticpendulum

static equil,acceleration on

incline, energy conv

e field, work, energy,

forces

spec ht, ht flow,

change of state.

double slitinterference in air and

water. energy leveltransitions, photons

1 9 8 4

1984 - vertical circle,projectile

momentum cons,elastic coll. angles

heating water,change of state, time,

ohm’s law, power. e – m forces on chgpart.

refraction, thin filminterference

radioactive decay,half life, alpha

1 9 8 3

1983 – friction, F =ma, tipping

inelast coll, energy inspring, shm. ohms law, circuit

thermo processeswork

concave mirror

Photoelectric eff,calculations of h,work function . . .

1 9 8 2 1982 (left) sprinter,

kinematics graph.

upward acceleration,

tension in cables

swing on rope,tension at lowest

point, energy

Hookup of clock andradio.

flux, induction convex lens

four modern physexperiments –

choose 1 and explain

1 9 8 1

1981 – friction, work,energy

springs, energy,momentum cons in

explosion

stat equil of chargedparticle in electric

field

circuits – power,ohm’s law

convex lenses, raydiagrams

Energy absorption,specific heat.



B1 B2 B3 B4 B5 B6 B7 B8

1 9 8 0

1980 - staticequilibrium

circuits andconnections

photoelectric eff.Data and graph

Using one graph,sketch its companion

Nuclear decay, consof momentum, calc of

energy

kin theory, press.

1 9 7

9

1979 – potential &Kinetic energy of

projectile

F = ma

muons, modernphysics, relativity electric & magneticforces on charged

particles

gas laws, p-vdiagram, work

refractionCharged spheres,

elec forces.

1 9 7 8

Vertical circular motion

Projectile; inelasticcollision

capacitor Induced emf

Concave mirror; raydiagram

Photon collision withmass

Bohr model;deBroglie wavelength

1 9 7 7 1977 work-energy,

kinematicscentripetal force,

banked road.

e-m forces, work,

fields

Ohm’s law, power,

spec ht, thermo

Interference of sound

waves. 2 pt sources

Relativity and modernphysics – sketching

graphs

1 9 7 6

Elevator; Atwood’smachine

Cons of momentum;bullet block combo

circuitsMass spectrometer

Waterfall: Grav potenergy converted to

thermal energy

Converging lensRay diagram

Photoelectric effect

1 9 7 5

1975-friction, energy,kinematics electric field, work

Thermo processes,gas laws

single and double slitinterference

energy levels,transitions, photons

electrical work,centripetal motion,

mass spectrometer.

pendulum, shm,energy, centripetal.

1 9 7 4

Pendulum; dynamics

Electron moving in aB field

Converging lensRay diagram

Experiment:determine # of

photons/sec in a lightbeam Electrostatics; lines of

equipotential

Thermo; PV diagram Mechanical power of ski lift

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B Index No Hyperlinks