Newton’s 1st Law of Motion - Mr. Finke's Science Class · 2018. 10. 10. · has much mass,...
Transcript of Newton’s 1st Law of Motion - Mr. Finke's Science Class · 2018. 10. 10. · has much mass,...
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Newton’s
Laws of
Motion
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Newton’s
1st Law of Motion
(law of inertia)
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Newton’s 1st Law of Motion An object in motion
tends to stay in motion and an object at rest tends to stay at rest, unless the object is acted upon by an
outside force. The Law of Inertia-due
to an object’s mass
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We feel the effects of Newton's First Law every day, but usually don't notice
them because other forces interfere. In space, the First Law is much more obvious. Objects will follow their
natural path until they are stopped by an outside force. On Earth, the
atmosphere will eventually slow down all moving objects, but in a vacuum
(basically an empty space with no air or atmosphere), like space, it will be more
obvious that objects obey Newton's Laws.
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Some Examples
• The person is standing on the floor.
• The only forces acting on the person are the force due to gravity pulling down & the normal force pushing up. The net force is zero and the person remains still.
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Another Example
One of the most common places people feel the First Law is in a fast moving vehicle, such as a car or a bus, that comes to a stop. An outside force stops the vehicle, but the passengers, who have been moving at a high speed, are not stopped and continue to move at the same speed.
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Balanced vs. Unbalanced Forces
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Some Problems
An astronaut in outer space away from
gravitational or frictional forces throws a rock.
The rock will…..
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And now the answer
…continue to move in a straight line at a constant speed.
The rock’s tendency to do this is called INERTIA.
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A rock is being
whirled at the end of a string in a clockwise direction. If the string breaks, the path of the rock is
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It will follow an “inertial path” so it will follow path “C”. Once the rock leaves the string, there are no unbalanced forces to affect its motion.
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A Weighty Problem I spend most Sunday
afternoons at rest on the sofa, watching football and consuming large quantities of food. What effect (if any) does this practice have upon my inertia? Explain.
My inertia will most definitely increase. My mass will increase because of this practice and if mass increases, then inertia increases.
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How much force? An 2-kg object is
moving horizontally with a speed of 4 m/s. How much net force is required to keep the object moving with the same speed and in the same direction?
0 N An object in motion will
maintain its state of motion. The presence of an unbalanced force will change the velocity of an object.
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Is a force required?
If you were in a weightless environment in space, would it require a force to set an object in motion?
Yes, because even in outer space, an object has mass. If an object has mass then the object is going to resist changes in its motion. A force must be applied to set the object in motion. Newton’s Laws rule—Everywhere!
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A Final Problem
Why isn't the girl hurt when
the nail is driven into the block of wood?
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And the answer is….
• Due to the large mass of the books, the force of the hammer is sufficiently resisted (inertia).
• This is demonstrated by the fact that the blow of the hammer is not felt by the girl.
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Newton’s
Second
Law of
Motion
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NEWTON'S 2nd LAW OF MOTION
Fa
or amF
F a m
F a m
m
F a
m
m
m
F a
F a
F a
m
a1
M
M
M
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Newtons’ Second Law
• F = m a
• The acceleration of an object is directly proportional to the net force acting on the object…
• …and inversely proportional to the mass of the object.
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Example Questions
• How much acceleration does a 747 jumbo
jet of mass 30,000kg experience in takeoff
when the thrust of all of the engines is
120,000N?
• F= ma a = F/m
• a = 120000 N/30000 kg
• a = 4 m/s2
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Example Questions
• The same net force is applied to two
blocks.
• If the blue one has a smaller mass than
the yellow one, which one will have the
LARGER acceleration?
F F
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If the NET FORCE is parallel to the velocity,
then the speed of the object increases.
If the NET FORCE is anti-parallel (or
opposite) to the velocity, then the speed of the
object decreases.
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If the net force is perpendicular to the velocity, the direction of the velocity changes.
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• Force and acceleration are vector
quantities.
• If v is parallel to F, speed
increases.
• If v is antiparallel to F, speed
decreases.
• If v perpendicular to F, direction
of v changes.
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When Acceleration Is Zero...
• …we say the object is in Mechanical Equilibrium.
• …the net force is zero.
• For Static Equilibrium the velocity is zero.
• For Dynamic Equilibrium the velocity is constant.
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When Acceleration Is Zero - Equilibrium
Static Equilibrium
Velocity is zero
Examples:
Hanging from a tree
Weighing yourself on a set of scales
Computer setting on a table
Car parked on an incline
Normal up
Weight down
Weight down
Weight down Weight down
Scales pushing up
Tree
pulling up
Normal Friction
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Dynamic Equilibrium Velocity is nonzero and constant
Examples:
Driving at constant velocity
Force from road
Weight down
Friction
Normal up
Weight down Air resistance
Terminal velocity in parachuting
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Newton’s 3rd Law • For every action there is an equal and opposite
reaction.
Book to earth
Table to book
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Think about it . . . What happens if you are standing on a
skateboard or a slippery floor and push against
a wall? You slide in the opposite direction
(away from the wall), because you pushed on
the wall but the wall pushed back on you with
equal and opposite force.
Why does it hurt so much when you stub
your toe? When your toe exerts a force on a
rock, the rock exerts an equal force back on
your toe. The harder you hit your toe against
it, the more force the rock exerts back on your
toe (and the more your toe hurts).
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Newton’s Third Law
• A bug with a mass of
5 grams flies into the
windshield of a
moving 1000kg bus.
• Which will have the
most force?
• The bug on the bus
• The bus on the bug
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Newton’s Third Law
• The force would be
the same.
• Force (bug)= m x A
• Force (bus)= M x a
Think I look bad? You should see the other guy!
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Action: earth pulls on you
Reaction: you pull on earth
Action and Reaction on Different Masses
Consider you and the earth
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Action: tire pushes on road Reaction: road pushes on tire
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Action: rocket pushes on gases
Reaction: gases push on rocket
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Consider hitting a baseball with a bat. If we
call the force applied to the ball by the bat the
action force, identify the reaction force.
(a) the force applied to the bat by the hands
(b) the force applied to the bat by the ball
(c) the force the ball carries with it in flight
(d) the centrifugal force in the swing
(b) the force applied to the bat by the ball
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Newton’s 3rd Law
• Suppose you are taking a space
walk near the space shuttle, and
your safety line breaks. How
would you get back to the shuttle?
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Newton’s 3rd Law
• The thing to do would be to take one of the tools
from your tool belt and throw it is hard as you can
directly away from the shuttle. Then, with the help
of Newton's second and third laws, you will
accelerate back towards the shuttle. As you throw
the tool, you push against it, causing it to
accelerate. At the same time, by Newton's third
law, the tool is pushing back against you in the
opposite direction, which causes you to accelerate
back towards the shuttle, as desired.
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What Laws are represented?
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Review Newton’s First Law:
Objects in motion tend to stay in motion and objects at rest tend to stay at rest unless acted upon by an unbalanced force.
Newton’s Second Law:
Force equals mass times acceleration (F = ma).
Newton’s Third Law:
For every action there is an equal and
opposite reaction.
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1stlaw: Homer is large and has much mass, therefore he has much inertia. Friction and gravity oppose his motion.
2nd law: Homer’s mass x 9.8 m/s/s equals his weight, which is a force.
3rd law: Homer pushes against the ground and it pushes back.