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Newton' First and Third Law

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Title: Newton' First and Third Law


1
Newton' First and Third Law
By Asha Saujani Krupa Patel Erin Parcell
2
Newton's First Law
The Law of Inertia
  • An object at rest tends to stay at rest and an
    object in motion tends to stay in motion with
    the same speed and in the same direction unless
    acted upon by an unbalanced force.

resisting state of motion
  • Simple Terms
  • things keep doing what they were doing until they
    were interrupted

3
one more time.....
  • Once moving at a steady speed
  • In a straight line
  • It will continue moving.
  • At a steady speed.
  • In a straight line..

Once standing still it will stay still..
4
Rules
  • Objects resist accelerations.
  • Left to themselves, objects don't speed up, don't
    slow down, and don't change direction.
  • It requires an unbalanced force to change the
    velocity of an object.
  • If an object has a constant velocity, then no
    unbalanced forces are pushing on it.
  • A force on an object tends to change it velocity.
    If no force pushes or pulls on an object (or if
    the forces on the object cancel each other out)
    then the object's velocity stays the same.
  • No unbalanced force means no acceleration.
  • No force means no acceleration.

5
  • If no forces act on an object (or if all of the
    forces that do act cancel each other out), then
    the object will not
  • speed u,slow down, change directions
  • If an object is not accelerating, then either
  • no forces are pushing on it, or
  • all of the forces that are pushing on it balance
    each other exactly.  
  • Objects made of matter have inertia.
  • The velocity of a free body is constant in time.
    (David Layzer, Constructing the Universe,
    Scientific American Library)
  • If Fnet 0, then a 0.
  • If there is no net force on an object it is in
    equilibrium, and vice versa.

6
Inertia
  • Newton's First Law says that any object made of
    matter has the property that it resists
    accelerations. The name of this property is
    inertia - inertia is the property of matter that
    causes objects to not "want to" accelerate. It is
    important to understand that inertia is not a
    force - inertia does not push an object along.
    Inertia is a property of matter, like color,
    density, etc.
  • all objects made of matter obey Newton's First
    Law - regardless of how much inertia they have.
  • Newton's First Law does not depend on how much
    inertia an object has - all objects made of
    matter have inertia, and they all obey Newton's
    First Law. In a little while, when we get into
    Newton's Second Law, the amount of inertia an
    object has will become important - but not now.

7
Net force
The net force on an object is the vector sum of
all of the forces that push or pull on the object.
  • can change velocity of an object..
  • Examples
  • two forces act on a object at one time the
    force to the left is strong so the net force on
    the left will cause the object to change velocity

it may appear as is there only one force at
acting on the object they are two separate
forces but one is stronger
What are the two forces?
8
What is a Force?
  • A force is an interaction between 2 objects
    involving a push or a pull.Forces are vectors -
    they have a direction in space.Common units of
    force pounds, Newtons

What is an "object"
Anything made of matter is an object.
Equilibrium
An object that is not accelerating is said to be
in equilibrium.If an object is in equilibrium,
the net force on it is zero.
9
Riding in a Car
  • Accelerating from Rest - "G Forces"
  • Situation
  • Your car is at rest. Suddenly you push down on
    the "accelerator" and the accelerates forward.
    You feel that you are pushed back into your seat.
  • Common Explanation
  • "G Forces", caused by the acceleration, push you
    back into your seat.
  • Problems with the Common Explanation
  • First of all, there is nothing pushing you back
    in your seat! (Acceleration is a concept, not an
    object, and only objects can push you. See
    Thoughts on Force... for more discussion.)
  • Correct Explanation
  • You were at rest,
  • you remain at rest.
  • The car accelerates
  • forward, and you
  • stay where you are.

10
Decelerating
  • Common Explanation
  • You are thrown forward.
  • Problems with the Common Explanation
  • What throws you?
  • Correct Explanation
  • You are moving with a constant velocity. You keep
    that velocity (while the car slows down) until
    something stops you.

11
POP QUIZ!!!
http//www.batesville.k12.in.us/physics/PhyNet/Mec
hanics/Newton1/First_Law_Quiz.htmlFirst20Law20Q
uiz
12
Newtons Third Law
  • For every action,
  • there is an equal and
  • opposite reaction.

13
Applying This Law to Life
  • While you are sitting
  • in your chair, your body
  • exerts a downward force
  • on the chair and the chair
  • exerts an upward force
  • on your body.

14
Forces
  • Forces always come in pairs.
  • The direction is opposite.
  • They are equal in size.
  • A baseball forces the bat to the left
  • and the bat forces the ball to the right,
  • but they exert the same amount of force.

15
Action and Reaction Forces
  • Action and Reaction are names of forces.
  • For every action force, there is a reaction
    force meansForces ALWAYS occur in
    pairs.Single forces NEVER happen.
  • Since a force is an interaction between objects,
    two objects are involved in every force. Call the
    objects A and BAction force A pushes
    BReaction force B pushes A

16
Equal
  • In Newtons Third Law, equal meansEqual in
    size.The action and reaction forces are EXACTLY
    the same size.Equal in time.The action and
    reaction forces occur at EXACTLY the same time.

17
Mass
  • The same force acting on objects of different
    mass will produce different accelerations!
  • FnetFnetmam aSameForce

18
Internal Forces
  • Internal ForcesIt is possible for Newtons Third
    Law action/reaction forces to cancel - if they
    act on different parts of the same object.These
    forces are called internal forces.

19
Pop Quiz
http//www.batesville.k12.in.us/physics/PhyNet/Mec
hanics/Newton3/Third_Law_Quiz.html
20
THE END
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