Transcript Slide 1
Chapter 5
Newton’s Third Law
of Motion
For every “action” there is a “reaction”
21-Jul-15
Physics 1 (Garcia) SJSU
Newton’s Third Law of Motion
Whenever an object exerts First Object
(Hammer)
a force on a second
object, the second object Second Object
(Nail)
exerts a force of equal
magnitude in the
opposite direction on the
first object.
21-Jul-15
Physics 1 (Garcia) SJSU
Check Yourself
A 2 ton car, going 60 m.p.h. hits a 5 ton truck, going 20 m.p.h..
The force of impact is greatest on which vehicle, the car or the truck?
The change in velocity (the acceleration) is greatest for which vehicle?
By what principle of physics?
21-Jul-15
Physics 1 (Garcia) SJSU
Check Yourself
Arnold Strongman and Suzie Small pull on opposite
ends of a rope in a tug of war. The greater force
exerted on the rope is by
1. Arnold.
2. Suzie.
3. Neither. The force is the same.
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Demo: Pulled in Both Directions
10
10
Does the
scale read:
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1. 10 N,
2. 20 N, or
3. Zero?
Physics 1 (Garcia) SJSU
Demo: Equal Magnitudes
Action
Reaction
5
With spring scales, we verify that action and
reaction forces have equal magnitudes.
15
Hold
0
15
5
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0
10
10
Pull
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Action and Reaction
Common expression of 3rd Law is,
To every action there’s an equal and opposite
reaction.
What’s an “action”?
How can reaction be “equal” and “opposite”?
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Physics 1 (Garcia) SJSU
Action-Reaction Pairs
Here are some
examples of
action-reaction
pairs.
Think of examples
of an object
exerting a force
on a second
object.
Practice identifying
action-reaction
pairs.
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????
????
????
????
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Demo: Mutual Attraction
What happens when:
• Mr. A pulls, Mr. B holds.
• Mr. A holds, Mr. B pulls.
• Mr. A & Mr. B both pull.
Mr. B
Mr. A
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Mr. B has more
mass than Mr. A
Physics 1 (Garcia) SJSU
Demo: Mutual Attraction (cont.)
If only Mr. A pulls on Mr. B then Mr. B accelerates.
Reaction force of equal magnitude so Mr. A also moves.
Who moves faster? Mr. A, Mr. B, or the same?
Mr. A
Reaction
Action
Mr. B
Mr. B has more
mass than Mr. A
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Physics 1 (Garcia) SJSU
Demo: Mutual Attraction (cont.)
When both guys pull then there are two action forces and
two reaction forces.
If both pull with same force, how much greater is the
acceleration than when only one pulls?
Mr. A
Reaction
Action
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Action
Reaction
Physics 1 (Garcia) SJSU
Mr. B
Demo: Mutual Repulsion
Similar demonstration is to
have Mr. A and Mr. B push
away instead of pull
together.
Same results; if Mr. A pushes
and Mr. B holds then both
move apart.
Mr. B
Mr. A
Reaction
Action
Standing on skateboards
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Walking, Running & Jumping
What forces accelerate us into motion when
we walk, run, or jump?
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Forces when Walking or Jumping
For a person walking, running, or jumping,
the three main forces on the person are:
• Gravity (Downward)
• Support of the floor (Upward)
• Frictional force of the floor (Horizontal)
Only these forces can accelerate the person.
Gravity is constant but the force exerted by
the floor can increase in reaction to the
person exerting a force on the floor.
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Walking Forward
When weight is on back foot it acts by pushing
back on the floor. Reaction is the friction of the
floor, which pushes your body forward
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If there were no friction
then dancer would fall
Reaction straight down and
Action
could not walk forward
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Jumping
Jumping is done by pushing
downward on the ground
(action) so the ground
pushes upward on you
(reaction).
How high you jump depends
on the force and on the
distance over which you
apply that force.
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Physics 1 (Garcia) SJSU
Can only push while in contact
with the ground so squatting
helps by increasing distance.
IMPORTANT!!!
Action force & reaction
force NEVER cancel
because they act on
different objects!
Repeat this to yourself over and over again
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Physics 1 (Garcia) SJSU
Check Yourself
Miss A pushes the car (action);
car pushes back on her
(reaction). Do these forces
cancel?
Miss A
Action
Reaction
Force on Miss A is to the left;
how can she move forward
(to the right)?
What if floor had zero friction?
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Reaction
Action
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ActionReaction
Pairs
Check Yourself
Miss B also pushes the car;
can she move the car by
herself?
ActionReaction
Pairs
In terms of Newton’s laws, why
is this not possible?
What other force does Miss B
exert on the car besides her
hands?
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Physics 1 (Garcia) SJSU
Miss B
Action
Reaction
Action
Reaction
Adding Forces
When two forces or
more forces act in
different directions,
finding the net force is
more complicated.
Have to consider the angle for each force.
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Vector Addition
Forces are vectors, with magnitude & direction.
Net Force
A+B
(25 Newtons)
Force B
(10 N)
Object
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Force A
(20 Newtons)
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Parallelogram rule
Demo: Straighten the Line
Pull on the line to make it horizontal.
HORIZONTAL
Pull
Pull
15 pound
Bowling Ball
As the angle gets
smaller, must pull
much harder.
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Physics 1 (Garcia) SJSU
Demo: Straighten the Line (II)
5N
As the angle gets
smaller, must pull
much harder.
5N
15 N
15 N
10 Newton
Weight
10 Newton
Weight
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Parallelogram Rule
Net force is the same in both cases but pulling forces different.
Net Force
pull
pull
PULL!
PULL!
Weight
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Check Yourself
Nellie Newton hangs motionless by one hand from a
clothesline as shown—which is on the verge of
breaking. Which side of the line is
most likely to break?
Two upward forces
must add together
to balance Nellie’s
weight.
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1. Left side
2. Right side
3. 50/50 chance
of either side
breaking
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Lab: Force Table
Practice addition of
forces as vectors in
the Physics 1L lab
using “force tables.”
Hang weights and
adjust angles until
forces balance.
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