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7.0: Video Introduction to Chapter 7
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Video introduction to the topics to be covered in this chapter: continuous motion in one and two dimensions (discussing multiple coordinate systems), one-dimensional non-continuous motion, dependent and relative motion.
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7.1: One-Dimensional Continuous Motion
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Quantifying one-dimensional continuous motion of a particle in terms of its position, velocity and acceleration as functions of time. Includes worked examples.
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7.2: One-Dimensional Noncontinuous Motion
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Describing one-dimensional noncontinuous motion of an object in terms of its position, velocity, and acceleration as functions of time. Includes worked examples.
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7.3: Two-Dimensional Kinematics with Rectangular Coordinates
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Analyzing two-dimensional kinematics problems in the Cartesian plane; separating position, velocity, and acceleration into xxx and yyy components. Includes worked examples.
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7.4: Two-Dimensional Kinematics with Normal-Tangential Coordinates
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Overview of the normal-tangential coordinate system. Calculating velocity and acceleration of an object in motion, in terms of the normal and tangential directions. Includes worked examples.
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7.5: Two-Dimensional Motion with Polar Coordinates
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Overview of the polar coordinate system. Calculating the velocity and acceleration of a object in motion in a polar coordinate system as functions of time, in terms of angle to the xxx-axis and distance from the origin. Includes worked examples.
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7.6: Dependent Motion Systems
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Analyzing dependent motion systems and determining their constraints. Includes worked example.
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7.7: Relative Motion Systems
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Analysis of relative motion in multi-object systems, in one and two dimensions. Includes worked examples.
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7.8: Chapter 7 Homework Problems
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