chapter 4: newton’s laws of motion -...
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![Page 1: Chapter 4: Newton’s Laws of Motion - Weeblydrlaurenceanderson.weebly.com/.../4.1_lecture_-_newto… · · 2015-11-07Chapter 4: Newton’s Laws of Motion [A Tale of Force, Friction](https://reader034.vdocuments.net/reader034/viewer/2022050807/5abb5d9e7f8b9a567c8c86e3/html5/thumbnails/1.jpg)
Chapter 4: Newton’s Laws
of Motion [A Tale of Force, Friction and Tension]
4.1. Newton’s Laws of Motion
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Force
Force is a push or pull.
Force is a vector – it has magnitude and
direction.
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Newton’s First Law of Motion
“An object moving with constant velocity
continues to move at that velocity as long as
no net force acts on it.”
“An object at rest remains at rest as long as
no net force acts on it.”
E.g.: A book does not start moving by itself. A force is
required to make it move.
An object stops moving only if there is friction, which is a
force. (Demonstrate pushing a book and a steel ball.)
Zero velocity is a constant velocity. Hence the first
sentence includes the case of the second sentence.
Also known as the Law of Inertia (“laziness”).
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Newton’s First Law of Motion
“An object moving with constant velocity
continues to move at that velocity as long as
no net force acts on it.”
“An object at rest remains at rest as long as
no net force acts on it.”
The “net force” is the vector sum of all forces. The law
says “no net force” because typically more than one force
acts on an object. For example, gravity is acting on all
objects in this room. However a book on a table does
not fall because the table is supporting it i.e. exerting a
force on the book equal and opposite to gravity, resulting
in no net force. Remove the table and the book will fall.
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What surfaces have little friction, on which it
can be observed that objects keep sliding at
(nearly) constant velocity?
• Ice
• A wet or oily surface
– Exceptions: a golf ball on wet grass, a hockey
puck on wet ice
• Air hockey table
• Outer space
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Inertia
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Newton’s Second Law of Motion
“Force equals mass times acceleration.”
Or, equivalently,
The SI units of Force are kg m/s2 = N (Newtons).
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Newton’s Second Law of Motion
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Newton’s Second Law of Motion
E.g. it takes more force to push a car than a
baby carriage.
Two equal weights
exert twice the
gravitational force of
one.
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Example
A 1800-kg car has an acceleration of 3.8
m/s2. What is the force acting on the car?
F = ma
F = (1800 kg)(3.8 m/s2)
F = 6840 kg m/s2 = 6800 N
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Newton’s Second Law of Motion
An object may have several forces acting on it. The
net acceleration is due to the net force, determined
by summing the x-, y- and z- components:
Σ Fx = m ax
Σ Fy = m ay
Σ Fz = m az
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Newton’s Second Law of Motion
To solve for the acceleration of an object, draw a
free-body diagram which shows (with arrows) the
direction of all the forces acting on that object
only. The forces are considered to act on the
object’s center.
Σ Fx = m ax
Σ Fy = m ay
Σ Fz = m az
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Example 2 Moe, Larry and Curly push on a 752-kg boat that floats next
to a dock. They each exert an 80.5-N force parallel to the
dock. (a) What is the boat’s acceleration if they all push in
the same direction? (b) What is the boat’s acceleration if
Larry and Curly push in the opposite direction from Moe?
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Answer
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Vector Forces in Two Dimensions
The easiest way to add forces in two dimensions
is to (a) choose a coordinate system that
simplifies resolving forces into perpendicular
components, and (b) apply Newton’s 2nd Law
(ΣF=ma) in each coordinate direction separately.
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Newton’s Third Law of Motion
“For every action force acting on object 1 by
object 2, there is a reaction force acting on
object 2 by object 1. The action and reaction
forces are equal in magnitude and opposite in
direction.”
Forces always come in pairs. If object 1 exerts a
force F on object 2, then object 2 exerts the force
–F on object 1.
These forces are called action-reaction pairs.
E.g. if you push or pull someone, you both feel
the same magnitude pressure.
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Newton’s Third Law of Motion
Some action-reaction pairs:
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Newton’s Third Law of Motion
“For every action force acting on object by
object 2, there is a reaction force acting on
object 2 by object 1. The action and reaction
forces are equal in magnitude and opposite in
direction.”
Note: Forces equal in magnitude and opposite in
direction acting on the same object cancel.
However, forces equal in magnitude and opposite
in direction acting on different objects do not
cancel. Both objects will move---unless one is
much more massive, or has other forces acting
on it.
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Example 3
Two groups of canoeists meet in the middle of a
lake. After a brief visit, a person in canoe 1
pushes on canoe 2 with a force of 46 N to
separate the canoes. The mass of canoe 1 and its
occupants is 150 kg, and the mass of canoe 2 and
its occupants is 250 kg. What is the acceleration
of each canoe?
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Answer
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Newton’s Third Law of Motion
Rocket propulsion can also be explained using
Newton’s third law. Combustion causes gases at
high pressure to push on the inside of the rocket.
Because the gases are allowed to exit the tail, the
net force on the
rocket is upward.
Note that the
rocket does not
need the ground
or air to “push”
against; it can
accelerate in
outer space.
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The Limits of Newton’s Laws
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The Limits of Newton’s Laws
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The Limits of Newton’s Laws
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• 4.1 Clicker Questions