AP Free Response Question
2014 B5
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Topic Formulas
Description
Published Formula
capacitors in parallel
capacitors in series
centripetal acceleration
electric current
Faraday's Law
friction
gravitational potential energy
Hooke's Law
Joule's Law
magnetic field around a current-carrying wire
magnetic flux
magnetic force on a current-carrying wire
magnetic force on a moving charge
Newton's 2nd Law
Newton's Law of Universal Gravitation
Ohm's Law
period of a simple pendulum
period of a spring
potential elastic energy
resistance in parallel
resistance in series
resistivity
Related Documents
Lab:
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Series and Parallel Circuits
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A Physical Pendulum, The Parallel Axis Theorem and A Bit of Calculus
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Calculation of "g" Using Two Types of Pendulums
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Coefficient of Friction
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Coefficient of Friction
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Coefficient of Kinetic Friction (pulley, incline, block)
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Conical Pendulums
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Conical Pendulums
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Conservation of Energy and Vertical Circles
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Conservation of Momentum in Two-Dimensions
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Falling Coffee Filters
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Force Table - Force Vectors in Equilibrium
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Forces Between Ceramic Magnets
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Inelastic Collision - Velocity of a Softball
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Inertial Mass
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Introductory Simple Pendulums
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Kepler's 1st and 2nd Laws
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LabPro: Newton's 2nd Law
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Loop-the-Loop
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Magnetic Field in a Solenoid
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Mass of a Rolling Cart
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Mass of an Electron
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Moment of Inertia of a Bicycle Wheel
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Oscillating Springs
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Parallel and Series Circuits
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RC Time Constants
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Relationship Between Tension in a String and Wave Speed
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Relationship Between Tension in a String and Wave Speed Along the String
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Resistance and Resistivity
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Resistance, Gauge, and Resistivity of Copper Wires
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Roller Coaster, Projectile Motion, and Energy
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Sand Springs
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Simple Pendulums: Class Data
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Simple Pendulums: LabPro Data
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Static Equilibrium Lab
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Static Springs: Hooke's Law
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Static Springs: Hooke's Law
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Telegraph Project
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Terminal Velocity
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Terminal Voltage of a Lantern Battery
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Video LAB: A Gravitron
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Video LAB: Ball Re-Bounding From a Wall
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Video LAB: Circular Motion
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Water Springs
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Resource Lesson:
RL -
A Comparison of RC and RL Circuits
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A Derivation of the Formulas for Centripetal Acceleration
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A Guide to Biot-Savart Law
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Advanced Gravitational Forces
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Air Resistance
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Air Resistance: Terminal Velocity
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Ampere's Law
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An Introduction to DC Circuits
RL -
Capacitors and Dielectrics
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Centripetal Acceleration and Angular Motion
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Conservation of Energy and Springs
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Derivation of Bohr's Model for the Hydrogen Spectrum
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Derivation: Period of a Simple Pendulum
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Dielectrics: Beyond the Fundamentals
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Eddy Currents plus a Lab Simulation
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Electricity and Magnetism Background
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Energy Conservation in Simple Pendulums
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Famous Experiments: Cathode Rays
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Filaments
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Forces Acting at an Angle
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Freebody Diagrams
RL -
Gravitational Energy Wells
RL -
Inclined Planes
RL -
Inertial vs Gravitational Mass
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Introduction to Magnetism
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Kepler's Laws
RL -
Kirchhoff's Laws: Analyzing Circuits with Two or More Batteries
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Kirchhoff's Laws: Analyzing DC Circuits with Capacitors
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LC Circuit
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Magnetic Field Along the Axis of a Current Loop
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Magnetic Forces on Particles (Part II)
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Magnetism: Current-Carrying Wires
RL -
Maxwell's Equations
RL -
Meters: Current-Carrying Coils
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Newton's Laws of Motion
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Non-constant Resistance Forces
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Parallel Plate Capacitors
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Period of a Pendulum
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Properties of Friction
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RC Time Constants
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Rotational Kinematics
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SHM Equations
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Simple Harmonic Motion
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Springs and Blocks
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Springs: Hooke's Law
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Static Equilibrium
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Symmetries in Physics
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Systems of Bodies
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Tension Cases: Four Special Situations
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The Law of Universal Gravitation
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Thin Rods: Moment of Inertia
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Torque on a Current-Carrying Loop
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Uniform Circular Motion: Centripetal Forces
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Universal Gravitation and Satellites
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Universal Gravitation and Weight
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Vertical Circles and Non-Uniform Circular Motion
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What is Mass?
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Work and Energy
Review:
REV -
Review: Circular Motion and Universal Gravitation
Worksheet:
APP -
Big Al
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Big Fist
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Family Reunion
APP -
Maggie
APP -
Ring Around the Collar
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The Antelope
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The Box Seat
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The Circuit Rider
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The Cycle Shop
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The Jogger
APP -
The Satellite
APP -
The Spring Phling
APP -
The Tree House
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Timex
CP -
Action-Reaction #1
CP -
Action-Reaction #2
CP -
Centripetal Acceleration
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Centripetal Force
CP -
DC Currents
CP -
Electric Power
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Equilibrium on an Inclined Plane
CP -
Falling and Air Resistance
CP -
Force and Acceleration
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Force and Weight
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Force Vectors and the Parallelogram Rule
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Freebody Diagrams
CP -
Gravitational Interactions
CP -
Incline Places: Force Vector Resultants
CP -
Incline Planes - Force Vector Components
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Inertia
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Magnetism
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Mobiles: Rotational Equilibrium
CP -
Net Force
CP -
Newton's Law of Motion: Friction
CP -
Ohm's Law
CP -
Parallel Circuits
CP -
Power Production
CP -
Power Transmission
CP -
RIVP Charts #1
CP -
RIVP Charts #2
CP -
Satellites: Circular and Elliptical
CP -
Series Circuits
CP -
Static Equilibrium
CP -
Tensions and Equilibrium
NT -
Acceleration
NT -
Air Resistance #1
NT -
An Apple on a Table
NT -
Apex #1
NT -
Apex #2
NT -
Bar Magnets
NT -
Brightness
NT -
Circular Orbits
NT -
Falling Rock
NT -
Falling Spheres
NT -
Friction
NT -
Frictionless Pulley
NT -
Gravitation #1
NT -
Head-on Collisions #1
NT -
Head-on Collisions #2
NT -
Ice Boat
NT -
Light and Heat
NT -
Magnetic Forces
NT -
Meters and Motors
NT -
Parallel Circuit
NT -
Pendulum
NT -
Rotating Disk
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Sailboats #1
NT -
Sailboats #2
NT -
Scale Reading
NT -
Series Circuits
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Settling
NT -
Shock!
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Skidding Distances
NT -
Spiral Tube
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Tensile Strength
NT -
Terminal Velocity
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Tug of War #1
NT -
Tug of War #2
NT -
Two-block Systems
WS -
Advanced Properties of Freely Falling Bodies #1
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Advanced Properties of Freely Falling Bodies #2
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Basic Practice with Springs
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Calculating Force Components
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Capacitors - Connected/Disconnected Batteries
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Charged Projectiles in Uniform Electric Fields
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Combinations of Capacitors
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Combining Kinematics and Dynamics
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Distinguishing 2nd and 3rd Law Forces
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Force vs Displacement Graphs
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Freebody Diagrams #1
WS -
Freebody Diagrams #2
WS -
Freebody Diagrams #3
WS -
Freebody Diagrams #4
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Inertial Mass Lab Review Questions
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Introduction to R | I | V | P Charts
WS -
Introduction to Springs
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Kepler's Laws: Worksheet #1
WS -
Kepler's Laws: Worksheet #2
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Kinematics Along With Work/Energy
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Kirchhoff's Laws: DC Circuits with Capacitors
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Kirchhoff's Laws: Sample Circuit
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Lab Discussion: Gravitational Field Strength and the Acceleration Due to Gravity
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Lab Discussion: Inertial and Gravitational Mass
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Magnetic Forces on Current-Carrying Wires
WS -
Magnetic Forces on Moving Charges
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More Practice with SHM Equations
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net F = ma
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Pendulum Lab Review
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Pendulum Lab Review
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Practice with Ampere's Law
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Practice: SHM Equations
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Practice: Uniform Circular Motion
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Practice: Vertical Circular Motion
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Resistance, Wattage, and Brightness
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Ropes and Pulleys in Static Equilibrium
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SHM Properties
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Standard Model: Particles and Forces
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Static Springs: The Basics
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Universal Gravitation and Satellites
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Vertical Circular Motion #1
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Vocabulary for Newton's Laws
WS -
Work and Energy Practice: Forces at Angles
TB -
34A: Electric Current
TB -
35A: Series and Parallel
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36A: Magnets, Magnetic Fields, Particles
TB -
36B: Current Carrying Wires
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Advanced Capacitors
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Basic Capacitors
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Basic DC Circuits
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Centripetal Acceleration
TB -
Centripetal Force
TB -
Exercises on Current Carrying Wires
TB -
Multiple-Battery Circuits
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Systems of Bodies (including pulleys)
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Textbook Set #6: Circuits with Multiple Batteries
TB -
Work, Power, Kinetic Energy
CB-ETS
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