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Introducing Forces

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Introducing Forces Chapter 4 (MHR Physics) – PowerPoint PPT presentation

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Title: Introducing Forces


1
Introducing Forces
  • Chapter 4 (MHR Physics)

2
Forces
  • Essentially thought of as pushes or pulls on our
    everyday level
  • Are responsible for motion
  • Cause objects to accelerate
  • Vector quantity-has magnitude direction
  • Units are Newtons, (N) dynes, pounds

3
Common types of forces
  • Gravitational
  • Frictional
  • Electric
  • Magnetic
  • Mechanical

4
Key Terms
  • Inertia
  • Kinematics
  • Dynamics
  • Mechanics
  • Force
  • Inertial Mass
  • Gravitational Mass

5
Inertia (4.1)
  • Is the tendency of an object to remain in its
    current state of motion. The amount of an
    objects inertia is directly related to its mass.
  • Examples you dont want to get out of bed on a
    Saturday am
  • A granite boulder rests on a rocky beach

6
Inertia (4.1)
  • Galileos thought experiments led to our
    understanding of inertia-objects rolling down
    inclines will speed up, those rolling up inclines
    will slow down and those rolling along a
    horizontal surface will continue to roll. His
    work built on Aristotles and Buridan who
    believed respectively that constant force
    produced constant speed and that objects remained
    moving because they had impetus inside

7
The study of motion
  • Kinematics is the branch which describes an
    objects motion in terms of displacement,
    velocity, and acceleration
  • Dynamics explains why objects move i.e respond to
    forces
  • Mechanics Kinematics Dynamics

8
Inertia (4.1)
  • Inertial mass is the property of matter causing
    it to resist a change in its motion
  • Gravitational mass is the property of matter that
    determines the strength of the gravitational
    force. The more mass, the stronger the
    gravitational attraction for that mass.
  • Einstein showed that these two are essentially
    the same.

9
Common Forces (4.2)
  • Forces which involve direct physical contact are
    contact forces e.g. pushing, pulling, and
    frictional
  • Forces which do not involve direct physical
    contact but which act over a distance are called
    non contact forces e.g. electric, magnetic,
    gravitational

10
Common Forces (4.2)
  • Weight (gravitational force) is the force of
    gravity acting on a mass. We can jump higher on
    the moon than on earth because the moons gravity
    is about 1/6 th that of the earth.
  • Fg mg where F is force in N, m is mass in kg
    and g is acceleration due to gravity
  • Since g varies with location on the earth, your
    weight (not mass) will vary by location

11
Common Forces (4.2)
  • Friction is a force which opposes motion. It is
    measured in N and is a contact force
  • Two kinds of friction
  • Static friction involves no net motion
  • Kinetic friction involves movement
  • The coefficient of friction is a pure number
    which indicates how much friction exists between
    surfaces.
  • The symbol is µ
  • The formula for friction is µ Ff /FN or Ff
    µFN

12
Friction
  • Depends on nature of the surfaces-rougher
    surfaces have more friction than smoother ones
  • Actually an electromagnetic interaction at the
    atomic level. Surface atoms of objects in contact
    interact and form attractive forces leading to a
    stick and slip process when one object slides
    over another e.g. marker on whiteboard, chalk on
    chalkboard, squealing tires

13
Friction
  • The coefficient of friction is a stickiness
    value for specific combinations of surfaces
  • Friction also depends on the magnitude of the
    forces pressing the surfaces together.
  • The force that a surface exerts back on an object
    is called the normal force. It acts perpendicular
    to the surface.

14
Friction
  • Force of friction is independent of velocity
  • Force of friction is independent of the area of
    contact (only if mass is evenly distributed). The
    surfaces must be flat.
  • Certain plastics and rubbers have natural
    properties which do not agree with the standard
    model of friction e.g. ice-gripping tires,
    adhesive tape

15
Free Body Diagrams (FBD)
  • Represent all the forces acting on an object.
  • Only contains forces and angles at which they
    act.
  • Draw them roughly to scale so a bigger force will
    have a bigger line.
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