Chapter 3
Vectors
Coordinate Systems
Used
to describe the position of a point in
space
Coordinate system consists of
A fixed reference point called the origin
Specific axes with scales and labels
Instructions on how to label a point relative to the
orig

Chapter 9
Linear Momentum and Collisions
Linear Momentum
The
linear momentum of a particle, or an
object that can be modeled as a particle, of
r
mass m moving with a velocity v is defined to
be the product of the mass and velocity:
r
r
p mv
The terms mo

Chapter 5
The Laws of Motion
Sir Isaac Newton
1642 1727
Formulated basic laws
of mechanics
Discovered Law of
Universal Gravitation
Invented form of
calculus
Many observations
dealing with light and
optics
Force
Forces
are what cause any change in
the vel

Chapter 8
Conservation of Energy
Energy Review
Kinetic
Energy
Associated with movement of members of a
system
Potential
Determined by the configuration of the system
Gravitational and Elastic
Internal
Energy
Energy
Related to the temperature of the sys

Chapter 7
Energy
of a
System
Introduction to Energy
The
concept of energy is one of the most
important topics in science and engineering
Every physical process that occurs in the
Universe involves energy and energy
transfers or transformations
Energy i

Chapter 4
Motion in Two Dimensions
Motion in Two Dimensions
Using + or signs is not always sufficient to fully
describe motion in more than one dimension
Vectors can be used to more fully describe motion
Will look at vector nature of quantities in more de

Chapter 2
Motion in One Dimension
Kinematics
Describes
motion while ignoring the agents
that caused the motion
For now, will consider motion in one
dimension
Along a straight line
Will
use the particle model
A particle is a point-like object, has mass

Chapter 6
Circular Motion
and
Other Applications of Newtons
Laws
Uniform Circular Motion,
Acceleration
A
particle moves with a constant speed in a
circular path of radius r with an acceleration:
v2
ac
r
r
The centripetal acceleration, ac is directed towa

Physics for Scientists
and Engineers
Introduction
and
Chapter 1
Physics
Is based on experimental observations and
quantitative measurements.
The main objectives of physics are to identify a
limited number of fundamental laws that govern
natural phenomena