Embedded Files
Packets for Unit A
Packets for Unit A
Labs & Activities for Unit A
Labs & Activities for Unit A
Review Slides for Unit A Test
Review Slides for Unit A Test
Videos for Unit A
Videos for Unit A
video A1: Vector Basics. Just the basics of vector notation including an explanation of unit vectors.
video A1: Vector Basics. Just the basics of vector notation including an explanation of unit vectors.
video A2: Vector Basics (part 2). Some basics of the relationship between velocity and acceleration vectors.
video A2: Vector Basics (part 2). Some basics of the relationship between velocity and acceleration vectors.
video A3: Solving Newton's Second Law Problems. This video shows the steps to solving a Newton's second law problem with particular attention given to an object moving on an inclined plane.
video A3: Solving Newton's Second Law Problems. This video shows the steps to solving a Newton's second law problem with particular attention given to an object moving on an inclined plane.
video A4: Inclined Planes (Continued): This video is continued from video C1. It looks at an object on an inclined plane where friction is present.
video A4: Inclined Planes (Continued): This video is continued from video C1. It looks at an object on an inclined plane where friction is present.
video A5: Atwood's Machine Problems. This video shows a method for solving Newton's second law problems involving pulleys.
video A5: Atwood's Machine Problems. This video shows a method for solving Newton's second law problems involving pulleys.
video A6: Atwood's Machine Problems (part II). This video finishes up the analysis of Atwood's machine problems which are problems involving pulleys.
video A6: Atwood's Machine Problems (part II). This video finishes up the analysis of Atwood's machine problems which are problems involving pulleys.
video A7: Circular Motion Problems. This video shows how Newton's laws are applied to circular motion problems.
video A7: Circular Motion Problems. This video shows how Newton's laws are applied to circular motion problems.
video A8: Circular Motion Problems (part 2). This video looks at cars travelling around an unbanked turn.
video A8: Circular Motion Problems (part 2). This video looks at cars travelling around an unbanked turn.
video A9: Banked Turns and Toy Airplanes. This is video details the physics of a car travelling around a circle on a banked turn.
video A9: Banked Turns and Toy Airplanes. This is video details the physics of a car travelling around a circle on a banked turn.
video A10: Elevator Problems and Newton's Laws. This video shows how to handle a typical elevator problem involving Newton's laws of motion.
video A10: Elevator Problems and Newton's Laws. This video shows how to handle a typical elevator problem involving Newton's laws of motion.
video A11: Torque and the Cross-Product (or Vector Product): This video explains a little bit about torque and the cross-product or vector product of two vectors. So this is the second way that two vector quantities can be multiplied together.
video A11: Torque and the Cross-Product (or Vector Product): This video explains a little bit about torque and the cross-product or vector product of two vectors. So this is the second way that two vector quantities can be multiplied together.
video A14: Static Equilibrium Problems. This is a video that explains the necessary conditions for keeping a structure in static equilibrium. Static equilibrium occurs when a system has no linear acceleration and no angular acceleration.
video A14: Static Equilibrium Problems. This is a video that explains the necessary conditions for keeping a structure in static equilibrium. Static equilibrium occurs when a system has no linear acceleration and no angular acceleration.
video A16: Rotational Inertia or Moment of Inertia. This video introduces the concept of rotational inertia (or rotational sluggishness or moment of inertia)
video A16: Rotational Inertia or Moment of Inertia. This video introduces the concept of rotational inertia (or rotational sluggishness or moment of inertia)
video A17: The Parallel-Axis Theorem. If you know a system's rotational inertial about an axis that passes through its center of mass, then you can find the rotational inertial about a second axis that is parallel to the original axis by using the parallel-axis theorem.
video A17: The Parallel-Axis Theorem. If you know a system's rotational inertial about an axis that passes through its center of mass, then you can find the rotational inertial about a second axis that is parallel to the original axis by using the parallel-axis theorem.
video A20 : Rotational Dynamics (part 3): This is a video that details Atwood's machine problems where the pulley has significant mass.
video A20 : Rotational Dynamics (part 3): This is a video that details Atwood's machine problems where the pulley has significant mass.
video A23: Unit Review for rotational motion (part 1). This video is a review of the concepts covered in unit F on Rotational Motion. Try pausing the video after each question to see if you can answer the question on your own.
video A23: Unit Review for rotational motion (part 1). This video is a review of the concepts covered in unit F on Rotational Motion. Try pausing the video after each question to see if you can answer the question on your own.
video A25: Review of Unit A. Newton's Laws (part 1). This video is a review of the concepts covered in unit C. Try pausing the video after each question to see if you can answer the question on your own.
video A25: Review of Unit A. Newton's Laws (part 1). This video is a review of the concepts covered in unit C. Try pausing the video after each question to see if you can answer the question on your own.
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