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Transcript of Forces
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C h a p t e r 3Learning outcomes• Describe how balanced and unbalanced
forces affect body• Describe how a force may change motion of a
body• Identify and draw free body diagrams of
forces acting on object • Solve problems using a graphical method for
a static point mass being acted on by 3 forces for 2-D cases
• Use resultant force = mass × acceleration• Explain effects of friction on motion of a body
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C h a p t e r 33.1 Balanced and Unbalanced ForcesForces• Newton’s first law of motion states that
an object at rest will remain at rest and an object in motion will continue in motion at constant speed in a straight line in the absence of a resultant force acting on it
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C h a p t e r 33.1 Balanced and Unbalanced ForcesBalanced Forces• Newton’s first law of motion implies that
when no resultant force acts on a body, the body will continue with whatever motion it has
• If it is at rest, it will remain at rest• If it is moving, it will continue moving at
constant speed in a straight line
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• Rock at rest, net force acting
on it must be zero.• Weight of rock acting
downwards.• So there must be a
second force pushing it upwards.
• This second force is the reaction of the table and it balances the weight of the rock.
3.1 Balanced and Unbalanced ForcesBalanced Forces
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• The weight of the aircraft is balanced by the lift from the wings, so the aircraft flies at constant height.
• Air resistance encountered on moving forward is balanced by the thrust of the engines, so the velocity of the aircraft is constant.
3.1 Balanced and Unbalanced ForcesBalanced Forces
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• A falling object will reach a point when air resistance = weight.
• Object falls with terminal velocity.• Resultant force acting on it is zero.• No resultant force does not mean that no forces act on body.
• It means all forces are balanced.
3.1 Balanced and Unbalanced ForcesBalanced Forces
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Balanced Forces• When the forces acting on an object are
balanced, the object is either at rest or moving with uniform velocity.
3.1 Balanced and Unbalanced Forces
Rest Constant velocityor
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Unbalanced Forces• If the forces on an object are unbalanced, there will be a resultant force acting
on it and changing its velocity.
3.1 Balanced and Unbalanced Forces
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• A resultant force will cause(i) a stationary object to move(ii) a moving object to
– stop– move faster– slow down– change direction
3.1 Balanced and Unbalanced Forces
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C h a p t e r 33.1 Balanced and Unbalanced Forces
• Newton’s second law of motion states that the resultant forces acting upon an object is equal to the product of the mass and the acceleration of the object.
• The direction of the force is the same as that of the object’s acceleration.
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• Force = mass × acceleration• F = ma• SI unit for force is the newton (N)• One newton (N) is defined as the force
which produces an acceleration of 1 m s−2 when it is applied to a mass of 1 kg.
• 1 N = 1 kg m s−2
3.1 Balanced and Unbalanced Forces
1 N1 kg
a = 1 m s–2
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C h a p t e r 33.1 Balanced and Unbalanced Forces
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C h a p t e r 33.1 Balanced and Unbalanced Forces
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C h a p t e r 33.1 Balanced and Unbalanced Forces
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Resultant Forces • When several forces act on an object, these
forces can be replaced with a single resultant force.
3.1 Balanced and Unbalanced Forces
Resultant force
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Resultant Forces (Cases of Parallel Forces)• For cases of parallel forces, the magnitude of
the resultant force can be calculated by simple addition or subtraction
3.1 Balanced and Unbalanced Forces
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1. When forces acting on an object are balanced(or no resultant forces are acting on an object):
(a) If it is at rest, it will remain at rest. (b) If it is moving, it will continue moving at constant speed in a straight line.2. When the forces on an object are
unbalanced, a resultant force acts on the object and it accelerates (or decelerates).
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Action and Reaction• Newton’s third law of motion
states that for every action there is an equal and opposite reaction
3.2 Free-body Diagram
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Action and Reaction• If object A exerts a force on object B, then B exerts an equal but opposite force on A• Action and reaction act on different objects.
3.2 Free-body Diagram
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Free-body Force Diagrams• According to Newton’s 3rd law, forces always
occur in pairs with one force acting on a body, and an equal and opposite force acting on another body.
• If both forces and bodies are drawn in the same diagram, it can cause confusion about which force acts on which body.
• A free-body force diagram shows forces acting on a single body only.
3.2 Free-body Diagram
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Example
Free-Body Diagram
3.2 Free-body Diagram
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Mass under Action of 3 forces in 2 dimensions
(a) Unbalanced forces
–When we apply 3 forces to a point object, the resultant force acting on the object can be obtained by adding the force vectors
3.2 Free-body Diagram
A
B C
AB
C
R
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• Vector A is drawn according to scale.• Vector B is drawn according to scale
with its starting point touching the ending point vector A.
• Vector C is drawn according to scale with its starting point touching the ending point of B.
• Draw an arrow from the starting point of A to the ending point of C to obtained the resultant R.
• The same R can also be obtained by starting with vector B or C.
Procedure for Adding Vectors
A
B
C
R
3.2 Free-body Diagram
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(b) Balanced forces• When 3 forces acting on
an object are balanced, the
object will not accelerate.
• When we draw the vector diagram the 3 vectors form a closed triangle.
• Resultant is zero.
3.2 Free-body Diagram
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C h a p t e r 33.2 Free-body Diagram
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1. For every action there is an equal and opposite reaction
2. Action and reaction forces act on different objects
3. A free-body force diagram shows the forces that act on a single body
4. The resultant of 3 or more forces that act on an object can be determined using vector addition
5. When the 3 forces that act on an object are balanced the object will not accelerate. The 3 forces will form a closed triangle.
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C h a p t e r 33.3 FrictionFriction as a Useful Force• Friction is needed for walking and rolling• No friction will cause slip
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Friction as a Nuisance• Friction causes surfaces to heat up, results
in wear and tear.• In machinery, friction reduces efficiency as
large amount of energy wasted as heat.• Much research carried out in industries on
ways to reduce friction.
3.3 Friction
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Ways to reduce friction:• Moving parts made as smooth as
possible• Materials with very low frictional
resistance is used• Ball and roller bearings are placed
between moving parts• Surfaces separated by lubricant• Surfaces separated by air cushion
3.3 Friction
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Frictional force between two surfaces on a horizontal plane:
• Depends on material in contact• Depends on roughness of surfaces• Is proportional to the force pressing the
surfaces together• Is independent of the area of contact
3.3 Friction
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C h a p t e r 33.3 Friction
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1. Friction is a force that opposes sliding motion between two surfaces in contact.
2. For a body on a horizontal plane, the frictional force depends
(a) the nature of the contact surfaces(b) the weight of the body
3. Friction does not depend on the area of contact of the surfaces.
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• What happens when there is no resultant force on a body?
• How are force and acceleration related?• How can an object move if action equals
reaction?• Is friction a useful force or a nuisance?
Questions
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