Diagrams and Friction

REPRESENTATION
Free-body diagrams

WHAT IS REPRESENTATION?
Definitions Formulas
Diagrams Graphs
Language of
Physics

LEARNING OUTCOMES
 Identify forces acting on an object and
draw free-body diagrams
 Solve problems for a static-point mass
 Recall and apply the equation F = ma to
new situation or to solve related problems

FREE-BODY DIAGRAMS
 A diagram which shows all the forces
acting on a body
 Consists primarily of a sketch of a body
and arrows representing the forces
acting on it
 Weight
 Contact force
 Tension

EXAMPLE
Drawing Free-Body Diagram

WEIGHT
 Weight of a body is the gravitational force
exerted by the Earth on the body. The weight
acts at the center of gravity of a body. It is
always directed towards the center of the Earth
 The free-body diagram of a body falling without
air resistance is shown below

CONTACT FORCE
 Contact force is the force exerted by
the contact surface on the body
 Acts perpendicularly to the contact surface
 Two forces act on the body: they are the
contact force and the weight

RECALL: WEIGHT VS.
CONTACT FORCE
 Contact forces are forces
that act on a body at the
point of contact between
two different bodies
 Non-contact forces is a
force that acts on a body
such as the weight which
acts through the center of
gravity (CG) of an object
Contact forces Non-Contact forces

WHAT ARE THE FORCES ACTING
ON THE BODIES?
 The pair of action
and reaction forces
is the gravitational
force by the Earth
on the man and the
gravitational force
by the man on the
Earth
 There are 2 free-
body diagrams : One
for the man and the
other for the Earth

FREE-BODY DIAGRAM
 The free-body
diagram of the man
shows the force
acting on him only
 The free-body
diagram for the Earth
shows the force that
acts on the Earth only

WHAT ARE THE FORCES ACTING
ON THE BODIES?
 The first pair of action
and reaction forces is
the gravitational force
by the Earth on the
man and the
gravitational force by
the man on the Earth
 The second pair of
action and reaction
forces is the contact
force by the man on
the Earth and the
contact force by the
Earth on the man

FREE-BODY DIAGRAM
 The free-body
diagram shows two
forces : F1 and F2
acting on the man.
 Since the man is at
rest , the two
forces are equal
and opposite in
direction

FREE-BODY DIAGRAM
 The free-body
diagram for the
Earth shows two
forces , F1 and F2
acting on the
Earth
 Since F1 = F2 , the
Earth is also at
rest

THINK!
 Which are action-reaction pairs?

WORKED EXAMPLES
 Gymnast
 2 boxes
 Lift

GYMNAST
 How many free bodies?
 How many action-
reaction pairs?
 What are the forces
acting on each body?

FREE BODY DIAGRAMS
Gymnast Beam

TENSION
 The tension is directed along the length of the
string and pulls equally on the support and the
pendulum bob
 The diagram below is not a free-body diagram as it
shows forces acting on three bodies: the pendulum
bob, the string and the support. It will not be useful in
analysis.

TENSION
 Isolate the pendulum bob as a free-body
 Only contact force acting on the bob is
the tension
 Free-body diagram of the pendulum bob
consists of the tension and weight only

PUTTING IT TOGETHER
 Weight and contact force are equal. No
resultant force acting vertically
 Acceleration of the crate is due entirely to
the tension force

IN A LIFT – DAILY EXPERIENCES
(VIDEO)

LIFT PROBLEM – ACCELERATING
UPWARDS

LIFT PROBLEM – CONSTANT
VELOCITY

LIFT PROBLEM – ACCELERATING
DOWNWARDS

VECTOR DIAGRAMS
 2 scenarios
 Unbalanced
forces
 Balanced
forces

UNBALANCED FORCES
When 3 forces are
applied to a point of an
object , the resultant
force (due to it being
unbalanced) acting on
the object can be
obtained by adding the
force vectors
Vectors A,B and C
represent three
forces

BALANCED FORCES
• When 3 forces acting on an object is
balanced , resultant force is ________.
• There is no _________.
• An object will either ________ or
____________.

BALANCED FORCES
 Consider a picture hanging on the wall.
 What are the forces acting on the
picture frame?

FREE-BODY DIAGRAM
Weight
Tension Tension

VECTOR DIAGRAM –
BALANCED FORCES
Weight
Tension Tension
Tension
Tension
Weight

UNBALANCED FORCES
 Consider a boat being towed by 2 other
boats.
TensionTension
Boat
Tension
Tension
Resultant
Force

COMPARE:
Picture on wall
(Balanced forces)
Moving boat
(Unbalanced forces)
Tension
Tension
Weight
Tension
Tension
Resultant
Force

VECTOR DIAGRAM
Unarranged Arranged

LEARNING OUTCOMES
 Explain the effects of friction on the
motion of a body

EFFECTS OF FRICTION ON
MOTION
 As a useful force
 To move forward, you place one foot in
front of you and push your other foot
backwards on the ground. The friction
between your shoe and the ground
prevents you from slipping.

EFFECTS OF FRICTION ON
MOTION
 As each wheel
turns, friction is
created at the point of
contact between the
wheel and the road
 At the point of
contact, the wheel is
moving backwards
 Friction acts in the
opposite direction and
provides the forward
force that drives the
car

WHEN THERE IS NO FRICTION
 Without friction, the wheels would spin
without helping the car to move forward.
 An example of this is when a car gets
stuck in mud or fine sand as shown above

FACTORS THAT AFFECT
FRICTION
 Depends on the nature of the surfaces in
contact
 The rougher the surface the greater is the
friction
 Is proportional to the force pressing the
surfaces together (in the case of
horizontal movement, the pressing force
is the weight).
 Pushing heavy vs. light objects
• Is independent of the area of contact

Diagrams and Friction

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Diagrams and Friction