Chapter Study Guide

Where are you? Where are you going? How fast? These are questions that are addressed quantitatively in physics using position, coordinates, displacement, speed, and velocity. An important distinction among some of these quantities is that some are scalars and some are vectors. In this chapter you will learn the equations of motion for displacement and velocity and use these to solve increasingly difficult problems—and how to tell from a graph whether an object is moving quickly or slowly.

By the end of this chapter you should be able to
	distinguish between position and displacement and between speed and velocity;
	solve multiple displacement problems in one and two dimensions;
	write down the equations of motion for constant velocity;
	solve one- and two-step problems using those equations;
	draw, analyze, and interpret position–time and velocity–time graphs; and
	describe motion in different frames of reference.

3A: Displacement
3B: Motion graphs

72	Position and displacement
73	Vectors and scalars
74	Adding and subtracting displacements
75	3A: Displacement
76	Two-dimensional coordinates
77	Section 1 review
78	Speed and velocity
79	Setting up velocity, time, and position problems
80	The language of physics: motion
81	Calculating displacement, velocity, or time
82	Position versus time graph
83	Velocity versus time graph
84	Average and instantaneous velocity
85	Model for constant-velocity motion
86	3B: Motion graphs
87	Motion in different frames of reference
88	Section 2 review
89	Solving motion problems
90	Using more than one equation
91	Getting to a solution
92	Using consistent units
93	Speed of light and special relativity
94	Time in moving frames of reference
95	Consequences of special relativity
96	Simultaneity
97	Section 3 review
98	Chapter review

x_{f} = x_{i} + d

v = \frac{d}{t}

\vec{v} = \frac{Δ x}{Δ t} or \vec{v} = \frac{\vec{d}}{Δ t}

v_{a v g} = \frac{Δ x}{Δ t} = \frac{x_{f} - x_{i}}{t_{f} - t_{i}}

x_{f} = x_{i} + v t

position	origin	displacement
vector	magnitude	scalar
coordinates	speed	velocity
slope	average velocity	instantaneous velocity
reference frame	inertial reference frame


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