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Transcript of Force and Motion This week – This week – Force and Motion – Chapter 4 Force and Motion –...
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Force and MotionForce and Motion
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This week –This week – Force and Motion – Chapter 4Force and Motion – Chapter 4
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Thinking About MotionThinking About Motion
What makes objects move?What makes objects move? How do they move?How do they move? Can we make our daily observations Can we make our daily observations
quantitative? Can we understand??quantitative? Can we understand??
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Sir Isaac Newton 1643-Sir Isaac Newton 1643-17271727 One of the two One of the two
“inventors” of the “inventors” of the CalculusCalculus
The Law of GravitationThe Law of Gravitation Optics Optics Laws of Motion (N1, N2, Laws of Motion (N1, N2,
N3)N3)
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Force Force is the fundamental concept being
introduced in this chapter. We have an intuitive understanding of what a
FORCE is … a push or a pull. We will discuss the physical changes that are
induced when we apply a FORCE to an object.
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Force Forces are what cause any change in the
velocity of an object A force is that which causes an acceleration
The net force is the vector sum of all the forces acting on an object Also called total force, resultant force, or
unbalanced force The net force on an object can be ZERO
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NEWTON’S FIRST LAW (N1) An object is in EQULIBRIUM when the sum
of all of the forces acting on it is zero. An object in EQUILIBRIUM will either be
(and remain) at rest (no motion), or Will move with CONSTANT VELOCITY
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What if the net force is NOT ZERO? N2
Newton’s SECOND LAW If there is a non-zero (unbalanced) force applied to
an object, it will accelerate. The acceleration is proportional to the force but is
different for every object. The proportionality constant is “m” and is called the
mass. The mass of an object is a measure of the total
“amount of matter” contained by the object.
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Newton’s Second Law
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More better ….
aF
aF
m
m
objecttheonacting
Forcesallj
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Units of Mass
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Inertia and Mass The tendency of an object to resist any
attempt to change its velocity is called inertia Mass is that property of an object that
specifies how much resistance an object exhibits to changes in its velocity
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Zero Net Force When the net force is equal to zero:
The acceleration is equal to zero The velocity is constant
Equilibrium occurs when the net force is equal to zero The object, if at rest, will remain at rest If the object is moving, it will continue to move at
a constant velocity
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Classes of Forces Contact forces involve
physical contact between two objects
Field forces act through empty space No physical contact is
required
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Weight a minute ….
a
FORCE=
WEIGHT
Object will “fall” with an accelerationof g m/s2
Since F=ma=mg in this case, theWEIGHT of the object can bedescribed by
W=mgW=mg
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More About Forces A spring can be used to
calibrate the magnitude of a force
Forces are vectors, so you must use the rules for vector addition to find the net force acting on an object
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More About Mass Mass is an inherent property of an object Mass is independent of the object’s
surroundings Mass is independent of the method used to
measure it Mass is a scalar quantity The SI unit of mass is kg
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Newton’s First Law – Alternative Statement In the absence of external forces, when viewed from
an inertial reference frame, an object at rest remains at rest and an object in motion continues in motion with a constant velocity Newton’s First Law describes what happens in the
absence of a force Also tells us that when no force acts on an object, the
acceleration of the object is zero
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Mass vs. Weight Mass and weight are two different quantities Weight is equal to the magnitude of the
gravitational force exerted on the object Weight will vary with location
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Newton’s THIRD Law – N3
mg
Because it was in equilibrium, the table must have been pushing UP on the brick with the same force as the weight of the brick. This is “action and Reaction”.
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Newton’s Third Law If two objects interact, the force F12 exerted
by object 1 on object 2 is equal in magnitude and opposite in direction to the force F21 exerted by object 2 on object 1
F12 = - F21
Note on notation: FAB is the force exerted by A on B
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Newton’s Third Law, Alternative Statements Forces always occur in pairs A single isolated force cannot exist The action force is equal in magnitude to the
reaction force and opposite in direction One of the forces is the action force, the other is the
reaction force It doesn’t matter which is considered the action and which
the reaction The action and reaction forces must act on different
objects and be of the same type
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VERY IMPORTANT CONCEPT
The “action” force The “action” force and the “reaction” and the “reaction”
force act on force act on DIFFERENT bodies.DIFFERENT bodies.
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To solve problems using N123 Always ISOLATE the SINGLE object that you are
considering. Indicate ALL of the forces acting on the object
including reaction forces. Resolve all of the forces into the appropriate
components. For each component:
forces = 0 for a body in equilibrium forces = ma for a body that is accelerating
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Free Body Diagram In a free body diagram,
you want the forces acting on a particular object
The normal force and the force of gravity are the forces that act on the monitor
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Equilibrium, Example
A lamp is suspended from a chain of negligible mass
The forces acting on the lamp are the force of gravity (Fg)
the tension in the chain (T) Equilibrium gives
0 0y gF T F gT F
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Equilibrium, Example 1b The forces acting on the
chain are T’ and T” T” is the force exerted by
the ceiling T’ is the force exerted by
the lamp T’ is the reaction force to T Only T is in the free body
diagram of the lamp, since T’ and T” do not act on the lamp
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Equilibrium Conceptualize the
traffic light Categorize as an
equilibrium problem No movement, so
acceleration is zero forces = 0
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Objects Experiencing a Net Force If an object that can be modeled as a particle
experiences an acceleration, there must be a nonzero net force acting on it.
Draw a free-body diagram Apply Newton’s Second Law in component
form
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Newton’s Second Law Forces acting on the
crate: A tension, the
magnitude of force T The gravitational force,
Fg
The normal force, n, exerted by the floor
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Note About the Normal Force The normal force is not
always equal to the gravitational force of the object
For example, in this case
n may also be less than Fg
0y gF n F F and gn F F
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Inclined Planes Forces acting on the object:
The normal force, n, acts perpendicular to the plane
The gravitational force, Fg, acts straight down
Choose the coordinate system with x along the incline and y perpendicular to the incline
Replace the force of gravity with its components
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Multiple Objects When two or more objects are connected or in
contact, Newton’s laws may be applied to the system as a whole and/or to each individual object
Whichever you use to solve the problem, the other approach can be used as a check
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Multiple Objects First treat the system as a
whole:
Apply Newton’s Laws to the individual blocks
Solve for unknown(s) Check: |P21| = |P12|
systemx xF m a
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Multiple Objects Forces acting on the objects:
Tension (same for both objects, one string)
Gravitational force Each object has the same
acceleration since they are connected
Draw the free-body diagrams Apply Newton’s Laws Solve for the unknown(s)
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Multiple Objects
Draw the free-body diagram for each object One cord, so tension is the same for both objects Connected, so acceleration is the same for both objects
Apply Newton’s Laws Solve for the unknown(s)
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Forces of Friction When an object is in motion on a surface or
through a viscous medium, there will be a resistance to the motion This is due to the interactions between the object
and its environment This resistance is called the force of friction
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Forces of Friction Friction is proportional to the normal force
ƒs µs n and ƒk= µk n
These equations relate the magnitudes of the forces, they are not vector equations
The force of static friction is generally greater than the force of kinetic friction
The coefficient of friction (µ) depends on the surfaces in contact
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Forces of Friction The direction of the frictional force is
opposite the direction of motion and parallel to the surfaces in contact
The coefficients of friction are nearly independent of the area of contact
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Static Friction Static friction acts to keep
the object from moving If F increases, so does ƒs
If F decreases, so does ƒs
ƒs µs n where the equality holds when the surfaces are on the verge of slipping Called impending motion
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Kinetic Friction The force of kinetic
friction acts when the object is in motion
Although µk can vary with speed, we shall neglect any such variations
ƒk = µk n
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Some Coefficients of Friction