NextTime Question
Pendulum
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When the ball at the end of the string swings to its lowest point,
the string is cut by a sharp razor.
Which path will the ball follow?
View Correct Answer
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A Photoelectric Effect Analogy
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A Physical Pendulum, The Parallel Axis Theorem and A Bit of Calculus
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Acceleration Down an Inclined Plane
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Ballistic Pendulum: Muzzle Velocity
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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 Kinetic Friction (pulley, incline, block)
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Conical Pendulums
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Cookie Sale Problem
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Flow Rates
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Freefall: Timing a Bouncing Ball
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Galileo Ramps
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Gravitational Field Strength
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Home to School
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InterState Map
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Kepler's 1st and 2nd Laws
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LabPro: Newton's 2nd Law
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LabPro: Uniformly Accelerated Motion
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Loop-the-Loop
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Mass of a Rolling Cart
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Moment of Inertia of a Bicycle Wheel
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Monkey and the Hunter Animation
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Monkey and the Hunter Screen Captures
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Oscillating Springs
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Projectiles Released at an Angle
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Range of a Projectile
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Roller Coaster, Projectile Motion, and Energy
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Rube Goldberg Challenge
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Sand Springs
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Simple Pendulums: Class Data
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Terminal Velocity
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Video LAB: A Gravitron
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Video Lab: Ball Bouncing Across a Stage
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Video LAB: Ball Re-Bounding From a Wall
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Water Springs
Resource Lesson:
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A Derivation of the Formulas for Centripetal Acceleration
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Accelerated Motion: A Data Analysis Approach
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Accelerated Motion: Velocity-Time Graphs
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Analyzing SVA Graph Combinations
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Average Velocity - A Calculus Approach
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Centripetal Acceleration and Angular Motion
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Chase Problems
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Comparing Constant Velocity Graphs of Position-Time & Velocity-Time
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Conservation of Energy and Springs
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Constant Velocity: Position-Time Graphs
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Constant Velocity: Velocity-Time Graphs
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Derivation of Bohr's Model for the Hydrogen Spectrum
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Derivation of the Kinematics Equations for Uniformly Accelerated Motion
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Derivation: Period of a Simple Pendulum
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Derivatives: Instantaneous vs Average Velocities
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Directions: Flash Cards
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Energy Conservation in Simple Pendulums
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Freefall: Horizontally Released Projectiles (2D-Motion)
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Freefall: Projectiles in 1-Dimension
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Freefall: Projectiles Released at an Angle (2D-Motion)
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Gravitational Energy Wells
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Kepler's Laws
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LC Circuit
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Magnetic Forces on Particles (Part II)
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Monkey and the Hunter
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Period of a Pendulum
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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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Symmetries in Physics
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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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Uniform Circular Motion: Centripetal Forces
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Universal Gravitation and Satellites
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Vector Resultants: Average Velocity
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Vertical Circles and Non-Uniform Circular Motion
Review:
REV -
Review: Circular Motion and Universal Gravitation
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Test #1: APC Review Sheet
Worksheet:
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Big Al
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Hackensack
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Ring Around the Collar
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The Baseball Game
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The Big Mac
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The Cemetary
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The Golf Game
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The Satellite
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The Spring Phling
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Timex
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2D Projectiles
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Centripetal Acceleration
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Centripetal Force
CP -
Dropped From Rest
CP -
Freefall
CP -
Non-Accelerated and Accelerated Motion
CP -
Satellites: Circular and Elliptical
CP -
Tossed Ball
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Up and Down
NT -
Average Speed
NT -
Back-and-Forth
NT -
Circular Orbits
NT -
Crosswinds
NT -
Headwinds
NT -
Monkey Shooter
NT -
Projectile
NT -
Rotating Disk
NT -
Spiral Tube
WS -
Accelerated Motion: Analyzing Velocity-Time Graphs
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Accelerated Motion: Graph Shape Patterns
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Accelerated Motion: Practice with Data Analysis
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Advanced Properties of Freely Falling Bodies #1
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Advanced Properties of Freely Falling Bodies #2
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Advanced Properties of Freely Falling Bodies #3
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Average Speed and Average Velocity
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Average Speed Drill
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Basic Practice with Springs
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Charged Projectiles in Uniform Electric Fields
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Chase Problems #1
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Chase Problems #2
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Chase Problems: Projectiles
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Combining Kinematics and Dynamics
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Constant Velocity: Converting Position and Velocity Graphs
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Constant Velocity: Position-Time Graphs #1
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Constant Velocity: Position-Time Graphs #2
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Constant Velocity: Position-Time Graphs #3
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Constant Velocity: Velocity-Time Graphs #1
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Constant Velocity: Velocity-Time Graphs #2
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Constant Velocity: Velocity-Time Graphs #3
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Converting s-t and v-t Graphs
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Energy Methods: More Practice with Projectiles
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Energy Methods: Projectiles
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Force vs Displacement Graphs
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Freefall #1
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Freefall #2
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Freefall #3
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Freefall #3 (Honors)
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Horizontally Released Projectiles #1
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Horizontally Released Projectiles #2
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Inertial Mass Lab Review Questions
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Introduction to Springs
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Kepler's Laws: Worksheet #1
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Kepler's Laws: Worksheet #2
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Kinematics Along With Work/Energy
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Kinematics Equations #1
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Kinematics Equations #2
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Kinematics Equations #3: A Stop Light Story
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Lab Discussion: Gravitational Field Strength and the Acceleration Due to Gravity
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More Practice with SHM Equations
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Pendulum Lab Review
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Pendulum Lab Review
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Position-Time Graph "Story" Combinations
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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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Projectiles Released at an Angle
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Rotational Kinetic Energy
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SHM Properties
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Static Springs: The Basics
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SVA Relationships #1
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SVA Relationships #2
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SVA Relationships #3
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SVA Relationships #4
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SVA Relationships #5
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Universal Gravitation and Satellites
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Vertical Circular Motion #1
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2B: Average Speed and Average Velocity
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Antiderivatives and Kinematics Functions
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Centripetal Acceleration
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Centripetal Force
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Honors: Average Speed/Velocity
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Kinematics Derivatives
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Projectile Summary
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Projectile Summary
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Projectiles Mixed (Vertical and Horizontal Release)
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Projectiles Released at an Angle
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Set 3A: Projectiles
Paul G. Hewitt
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