Transcript Document

Concept Summary
Batesville High School Physics
Newton’s Third Law
For
every action, there is an
equal and opposite reaction.
What are “action” and
“reaction”?
 “Action”
and “Reaction” are names
of forces.
“For every action…reaction”
 “For
every action force, there is …
a reaction force” means:
Forces ALWAYS occur in pairs.
Single forces NEVER happen.
Action & Reaction Forces
 Since
a force is an interaction between
objects, two objects are involved in
every force. Call the objects A and B:
 Action
force: “A pushes B”
 Reaction force: “B pushes A”
“Equal”
 In
Newton’s Third Law, “equal” means:
 Equal in size.
 The
action and reaction forces are
EXACTLY the same size.
 Equal
 The
in time.
action and reaction forces occur at
EXACTLY the same time.
“opposite”
 In
Newton’s Third Law, “opposite”
means:
 Opposite in direction
 The action and reaction forces are
EXACTLY 180o apart in direction.
Two Logical Difficulties
1.
If Newton’s Third Law action &
reaction forces are equal and
opposite, how come they don’t always
cancel, making net force and
acceleration impossible?
(This is the question in the “Horse and
Wagon” problem.)
The Other Logical Problem
2.
If the Newton’s Third Law action and
reaction forces are always equal and
opposite, how do two objects of
different sizes get different
accelerations in the same interaction?
(When a bug hits a windshield,
different things happen to the bug and
windshield.)
The Keys to Understanding
 Only
forces pushing or pulling on an
object affect the object’s motion.
Only forces that act on the
same object can cancel.
 Newton’s
Third Law action and reaction
forces push/pull on different objects,
so they don’t cancel.
Action & Reaction Again
 The
(action) force “A pushes B” affects
the motion of object B.
 The (reaction) force “B pushes A”
affects the motion of object A.
 The
action and reaction forces don’t
cancel since they push on different
objects.
The Second Difficulty
Addressed
 If
the action and reaction forces are the
same size, how can two objects push
on each other and get different
accelerations?
 Newton’s Second Law says that the
acceleration of an object depends not
only on the force on it, but on the
object’s mass.
Don’t Forget Mass!
 The
same force acting on objects of
different mass will produce different
accelerations!
Same
Force
Fnet
m
=
a
Fnet
m
=a
Internal Forces
 It
is possible for Newton’s Third Law
action/reaction forces to cancel - if
they act on different parts of the
same object.
 These forces are called “internal
forces”.
Systems
 The
object or objects that you are
dealing with in a given situation is called
a “system”.
 How you pick your system determines
whether a particular action/reaction
force pair will cancel or not.
Systems
 There
is no “trick” to picking a “correct”
system - Newton’s Laws will work just
fine in any system.
The End.