PhysicsLAB: 2004 B2

PhysicsLAB

AP Free Response Question
2004 B2

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Description	Published Formula
actual pressure in a fluid
Bernoulli's Equation
buoyancy
Continuity Equation
mass density
pressure
uniform acceleration - displacement and instantaneous velocity
uniform acceleration - instantaneous position
uniform acceleration - instantaneous velocity

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Lab:	Labs - A Photoelectric Effect Analogy Labs - Acceleration Down an Inclined Plane Labs - Ballistic Pendulum: Muzzle Velocity Labs - Buoyancy Labs - Buoyancy Labs - Coefficient of Friction Labs - Coefficient of Kinetic Friction (pulley, incline, block) Labs - Collision Pendulum: Muzzle Velocity Labs - Conservation of Momentum Labs - Cookie Sale Problem Labs - Density of a Paper Clip Labs - Density of an Unknown Fluid Labs - Diving Canisters Labs - Flow Rates Labs - Foil Barge Labs - Freefall Mini-Lab: Reaction Times Labs - Freefall: Timing a Bouncing Ball Labs - Galileo Ramps Labs - Gravitational Field Strength Labs - Home to School Labs - InterState Map Labs - LAB: Ramps - Accelerated Motion Labs - LabPro: Newton's 2nd Law Labs - LabPro: Uniformly Accelerated Motion Labs - Mass of a Rolling Cart Labs - Moment of Inertia of a Bicycle Wheel Labs - Monkey and the Hunter Animation Labs - Monkey and the Hunter Screen Captures Labs - Projectiles Released at an Angle Labs - Ramps: Sliding vs Rolling Labs - Range of a Projectile Labs - Roller Coaster, Projectile Motion, and Energy Labs - Rube Goldberg Challenge Labs - Target Lab: Ball Bearing Rolling Down an Inclined Plane Labs - Terminal Velocity Labs - Video LAB: A Gravitron Labs - Video Lab: Ball Bouncing Across a Stage Labs - Video LAB: Ball Re-Bounding From a Wall Labs - Video Lab: Cart Push #2 and #3 Labs - Video Lab: Falling Coffee Filters Labs - Video Lab: Two-Dimensional Projectile Motion
Resource Lesson:	RL - Accelerated Motion: A Data Analysis Approach RL - Accelerated Motion: Velocity-Time Graphs RL - Analyzing SVA Graph Combinations RL - Average Velocity - A Calculus Approach RL - Chase Problems RL - Chase Problems: Projectiles RL - Comparing Constant Velocity Graphs of Position-Time & Velocity-Time RL - Constant Velocity: Position-Time Graphs RL - Constant Velocity: Velocity-Time Graphs RL - Derivation of the Kinematics Equations for Uniformly Accelerated Motion RL - Derivatives: Instantaneous vs Average Velocities RL - Directions: Flash Cards RL - Fluids At Rest RL - Fluids In Motion RL - Freefall: Horizontally Released Projectiles (2D-Motion) RL - Freefall: Projectiles in 1-Dimension RL - Freefall: Projectiles Released at an Angle (2D-Motion) RL - Monkey and the Hunter RL - Summary: Graph Shapes for Constant Velocity RL - Summary: Graph Shapes for Uniformly Accelerated Motion RL - SVA: Slopes and Area Relationships RL - Vector Resultants: Average Velocity
Review:	REV - Test #1: APC Review Sheet
Worksheet:	APP - Anchors Aweigh APP - Hackensack APP - The Baseball Game APP - The Big Mac APP - The Cemetary APP - The Golf Game APP - The Iceberg APP - The Spring Phling CP - 2D Projectiles CP - Archimedes Principle #1 CP - Archimedes Principle #2 CP - Dropped From Rest CP - Freefall CP - Gases CP - Non-Accelerated and Accelerated Motion CP - Syringes and Vacuum Pumps CP - Tossed Ball CP - Up and Down NT - Average Speed NT - Back-and-Forth NT - Balsa Wood and Rock NT - Boat NT - Buoyant Forces NT - Burning Candle NT - Crosswinds NT - Deuterium Ice Cube NT - Fire Truck NT - Floating Ice Cube NT - Floating Wood NT - Freely-Falling Elevator NT - Headwinds NT - Monkey Shooter NT - Pendulum NT - Pinched Bottle NT - Ping-Pong Ball NT - Projectile NT - Styrofoam NT - Submerged Ball NT - Submerged Glass NT - Verge of Sinking NT - Water Level WS - Accelerated Motion: Analyzing Velocity-Time Graphs WS - Accelerated Motion: Graph Shape Patterns WS - Accelerated Motion: Practice with Data Analysis WS - Advanced Properties of Freely Falling Bodies #1 WS - Advanced Properties of Freely Falling Bodies #2 WS - Advanced Properties of Freely Falling Bodies #3 WS - Average Speed and Average Velocity WS - Average Speed Drill WS - Charged Projectiles in Uniform Electric Fields WS - Chase Problems #1 WS - Chase Problems #2 WS - Chase Problems: Projectiles WS - Combining Kinematics and Dynamics WS - Constant Velocity: Converting Position and Velocity Graphs WS - Constant Velocity: Position-Time Graphs #1 WS - Constant Velocity: Position-Time Graphs #2 WS - Constant Velocity: Position-Time Graphs #3 WS - Constant Velocity: Velocity-Time Graphs #1 WS - Constant Velocity: Velocity-Time Graphs #2 WS - Constant Velocity: Velocity-Time Graphs #3 WS - Converting s-t and v-t Graphs WS - Energy Methods: More Practice with Projectiles WS - Energy Methods: Projectiles WS - Force vs Displacement Graphs WS - Freefall #1 WS - Freefall #2 WS - Freefall #3 WS - Freefall #3 (Honors) WS - Horizontally Released Projectiles #1 WS - Horizontally Released Projectiles #2 WS - Kinematics Along With Work/Energy WS - Kinematics Equations #1 WS - Kinematics Equations #2 WS - Kinematics Equations #3: A Stop Light Story WS - Lab Discussion: Gravitational Field Strength and the Acceleration Due to Gravity WS - Position-Time Graph "Story" Combinations WS - Projectiles Released at an Angle WS - Rotational Kinetic Energy WS - SVA Relationships #1 WS - SVA Relationships #2 WS - SVA Relationships #3 WS - SVA Relationships #4 WS - SVA Relationships #5 WS - Work and Energy Practice: An Assortment of Situations TB - 2A: Introduction to Motion TB - 2B: Average Speed and Average Velocity TB - Antiderivatives and Kinematics Functions TB - Fluids At Rest TB - Honors: Average Speed/Velocity TB - Kinematics Derivatives TB - Projectile Summary TB - Projectile Summary TB - Projectiles Mixed (Vertical and Horizontal Release) TB - Projectiles Released at an Angle TB - Set 3A: Projectiles

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