chapter 4 · the magnitude of the gravitational force acting on an object of mass m near the...
TRANSCRIPT
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Chapter 4
Forces in One Dimension
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Classical Mechanics
Describes the relationship between the motion of objects in our everyday world and the forces acting on them
Conditions when Classical Mechanics does not apply
very tiny objects (< atomic sizes)
objects moving near the speed of light
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Forces
Usually think of a force as a push or pull
Vector quantity
May be a contact force or a field force Contact forces result from physical contact
between two objects
Field forces act between disconnected objects
Also called “action at a distance”
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Force A force is a push or pull. An
object at rest needs a force to get it moving; a moving object needs a force to change its velocity.
The magnitude of a force can be measured using a spring scale.
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Contact and Field Forces
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Fundamental Forces
Types Strong nuclear force
Electromagnetic force
Weak nuclear force
Gravity
Characteristics All field forces
Listed in order of decreasing strength
Only gravity and electromagnetic in mechanics
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Electromagnetic Forces
Only forces that attract and repel
Electric Forces
Act between charged objects particles
Like charges repel
Opposite charges attract
Magnetic Forces
Act on certain metals
North and south poles
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Strong Nuclear Force
Acts only on the protons and neutrons in the nucleus.
Holds them together
Only acts at very short distances
Diameter of a proton
100x stronger than electromagnetic force
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Weak Nuclear Force
Not as strong as the strong nuclear force
Responsible for radioactive decay
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Gravitational Force
Weakest of the universal forces
Attractive force between two masses.
Proportional to mass
Decreases rapidly with distance
But still effective over long distances.
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Newton’s First Law
An object moves with a velocity that is constant in magnitude and direction, unless acted on by a nonzero net force
The net force is defined as the vector sum of all the external forces exerted on the object
In English please…..
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Newton’s First Law
Every object continues in its state of rest, or of uniform velocity in a straight line, as long as no net force acts on it.
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External and Internal Forces
External force Any force that results from the
interaction between the object and its environment
Internal forces Forces that originate within the object
itself
They cannot change the object’s velocity
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Inertia
Newton’s first law is often called the law of inertia.
Inertia is the tendency of an object to continue in its original motion
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Mass
Mass is the measure of inertia of an object. In the SI system, mass is measured in kilograms.
Mass is not weight:
Mass is a property of an object. Weight is the force exerted on that object by gravity.
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Mass
If you go to the moon, whose gravitational acceleration is about 1/6 g, you will weigh much less. Your mass, however, will be the same.
Scalar quantity
SI units are kg
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Newton’s Second Law
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Newton’s Second Law of Motion
Acceleration of an object is always in the same direction as the net force.
50kg
150N
50N
a=ΣF/m
F = 150-50 = 100Nm = 50kg
a = 100/50a = 2m/s2
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Units of Force
SI unit of force is a Newton (N)
US Customary unit of force is a pound (lb)
1 N = 0.225 lb
2s
mkg1N1
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Sir Isaac Newton
1642 – 1727
Formulated basic concepts and laws of mechanics
Universal Gravitation
Calculus
Light and optics
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Weight
The magnitude of the gravitational force acting on an object of mass m near the Earth’s surface is called the weight w of the object w = m g is a special case of Newton’s
Second Law g is the acceleration due to gravity
g can also be found from the Law of Universal Gravitation
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More about weight
Weight is not an inherent property of an object
mass is an inherent property
Weight depends upon location
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Newton’s Third Law
If object 1 and object 2 interact, the force exerted by object 1 on object 2 is equal in magnitude but opposite in direction to the force exerted by object 2 on object 1.
Equivalent to saying a single isolated force cannot exist
12 21 F F
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Newton’s Third Law of Motion
Helpful notation: the first subscript is the object that the force is being exerted on; the second is the source.
This need not be done indefinitely,
but is a good idea until you get
used to dealing with these forces.
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Newton’s Third Law cont.
F12 may be called the action force and F21
the reaction force
Actually, either force can be the action or the reaction force
The action and reaction forces act on different objects
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Newton’s Third Law of Motion
Action and Reaction forces
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Newton’s Third Law of Motion
Why don’t action/reaction forces cancel each other?
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Some Action-Reaction Pairs
is the normal force, the force the table exerts on the TV
is always perpendicular to the surface
is the reaction – the TV on the table
'andn n
' n n
n
n
'n
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Applications of Newton’s Laws
Assumptions
Objects behave as particles
can ignore rotational motion (for now)
Masses of strings or ropes are negligible
Interested only in the forces acting on the object
can neglect reaction forces
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Free Body Diagram
Must identify all the forces acting on the object of interest
Choose an appropriate coordinate system
If the free body diagram is incorrect, the solution will likely be incorrect
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Free Body Diagram, Example
The force is the tension acting on the box The tension is the same
at all points along the rope
are the forces exerted by the earth and the ground
gandn F
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Equilibrium
An object either at rest or moving with a constant velocity is said to be in equilibrium
The net force acting on the object is zero (since the acceleration is zero)
0F