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- Scalars and vectors in one dimension
- Displacement, velocity, and acceleration
- Representing motion
- Reference frames and relative motion
- Vectors and motion in two dimensions
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- Systems and center of mass
- Forces and free-body diagrams
- Newton's Laws
- Gravitational force
- Kinetic and static friction
- Spring forces
- Circular motion
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- Translational kinetic energy
- Work
- Potential energy
- Conservation of energy
- Power
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- Linear momentum
- Change in momentum and impulse
- Conservation of linear momentum
- Elastic and inelastic collisions
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- Rotational kinematics
- Connecting linear and rotational motion
- Torque
- Rotational inertia
- Rotational equilibrium and Newton's First Law in rotational form
- Newton's Second Law in rotational form
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- Rotational kinetic energy
- Torque and work
- Angular momentum and angular impulse
- Conservation of angular momentum
- Rolling
- Motion of orbiting satellites
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- Defining simple harmonic motion
- Frequency and period of simple harmonic motion
- Representing and analyzing simple harmonic motion
- Energy of simple harmonic oscillators
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- Interal structure and density
- Pressure
- Fluids and Newton's laws
- Fluids and conservation laws
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