Transcript 20150126075555x

Chapter 12
Page 356-382
Chapter 12 Section 1
Pg. 356-362
What is a Force?
• _____- a push or a pull that acts on an object
• A force can cause a resting object to move, or
it can ________ a moving object by changing
the object’s speed or direction
• Forces can be measured
What is a Force?
• Units of Force
– Force is measured in _______ (N)
– 1 newton is the force that causes a 1-kg mass to
accelerate at a rate of 1 m/s2
• 1 N = 1 kg*m/s2
• Representing Forces
– Use an _____ to represent the direction and
strength of a force
– Direction of arrow = direction of the ____ (weight
always acts downward)
– Length of arrow = strength or _________of force
Combining Forces
• ______ force arrows to show the result of how
forces combine
• Forces in the same direction ___ together
• Forces in the opposite direction SUBTRACT
from one another
• ________- overall force acting on an object
after all the forces are combined
Combining Forces
• Balanced Forces
– Net force can be ____:
when the same amount
of force is being pulled in
________ directions
– When the forces on an
object are ______, the
net force is zero and
there is no change in the
object’s motion
– Examples: tug of war,
arm wrestling
Combining Forces
• Unbalanced Forces
– A force that results when
the net force acting on
an object is not _____ to
zero
– When an ________
force acts on an object,
the object accelerates
– Forces in opposite
direction can also
______ to produce an
unbalanced force (tug of
war with a winner)
Friction
• ______- a force that opposes the motion of
objects that touch as they move past each
other
• Friction acts at the _______ where objects are
in contact.
• Without friction- walking would be
impossible, food would slide off your fork, etc
• There are 4 main types of friction: static
friction, sliding friction, rolling friction, and
fluid friction
Static Friction
• The friction force that acts on objects that are
___ moving.
• _____ acts in the direction ______ to that of
the applied force
Sliding Friction
• A force that _______ the direction of motion
of an object as it slides over a surface
• Sliding friction is ____ than static friction, so
less force is needed to keep an object moving
than to _____ it moving
• See example at the bottom of page 359
Rolling Friction
• When a _____ object rolls across a flat floor,
both the object and the floor are ____ slightly
out of shape. This change in shape at the
point of _______ contact is the cause of
rolling friction, the friction force that acts on
rolling objects.
Fluid Friction
• The force of fluid friction, ______ the motion
of an object through a fluid
• Fluid friction ________ with speed
• An object moving through the air is known as
______________
• Example: you feel fluid friction when stirring
thick cake batter (the faster you stir the
greater the friction)
Friction
Gravity
• Gravity- a force that acts between any two
______
– an attractive force, _____ objects together
– Gravity is what holds us to Earth
– Gravity can act over large distances
– Earth’s gravity acts _________ toward
the center of Earth
Gravity
• Falling Objects
– Gravity causes objects to _______ downward,
whereas air resistance acts in the direction opposite
to the motion and reduces acceleration
– When objects fall they gain speed, with increasing
speed comes ________ air resistance. If an object falls
for a long time, the upward force of air resistance
becomes equal to the downward force of gravity at
this point the forces are _________, acceleration is
zero and the object continues to fall at a constant
velocity
– Terminal velocity: constant velocity of a falling object
when the force of air _______ equals the force of
gravity.
Gravity
*Air drag is the same as
air resistance.
Projectile Motion
• Projectile Motion- the motion of a _____
object (projectile) after it is given an initial
forward velocity. The only forces acting upon
it are air resistance and ______
• When you throw a ball it actually follows a
_____ path because of gravity and air
resistance, example of projectile motion
Projectile Motion
Newton’s First and Second
Laws of Motion
Chapter 12 Section 2
Page 363-369
Aristotle
• Greek scientist and philosopher
• (384 B.C. – 322 B.C.)
• Made many scientific discoveries through
careful observation and _______ reasoning.
• Not always correct
• _________ proposed that force is required to
keep an object moving at constant speed
Galileo
• Italian scientist (1564-1642)
• Studied about the _____
• By rolling balls down wooden
ramps, he studied how ______ produces
constant acceleration.
• Concluded that moving objects not subjected
to ______ or any other force would continue
to move indefinitely
Newton
• Isaac Newton built on
the work of scientists
such as _______
• Published work in a
book entitled Principia
– Defined ____________
– Introduced his laws of
motion
• Discovered that gravity
affects all objects in the
_______
Newton’s First Law of Motion
• 1st Law states: The state of motion of an
object does ____ change as long as the net
force acting on the object is _____
– An object at rest remains at rest, and an object in
motion remains in motion with the ____ speed
and direction unless acted upon
– Sometimes referred to as the law of inertia
• _______- the tendency of an object to resist a
change in its motion
Newton’s First Law of Motion
Newton’s First Law of Motion
• Think: if you are in a moving car that is
involved in a front-end collision, the collision
makes the car stop suddenly, but because you
have inertia, you continue moving forward
– A seat belt and airbag work by exerting force,
opposing the forward motion
Newton’s First Law of Motion
Newton’s Second Law of Motion
• An _________ force causes an object’s
velocity to change (the object accelerates)
• _________ of an object depends upon its
mass
– Mass- a measure of the inertia of an object and
depends on the amount of ______ the object
contains
– Acceleration is directly _________ to the net force
acting on it (if force is doubled, the acceleration
doubles)
Newton’s Second Law of Motion
• 2nd Law states: the __________ of an object is
equal to the net force acting on it divided by
the object’s mass
– Doubling the mass cuts acceleration in half
– Units: Force is Newton (N) or kg*m/s2
Mass is kg
Acceleration is m/s2
Newton’s Second Law of Motion
• Acceleration of an object is ______ in the
same direction as the net force
• This law also applies when a ________acts in
the direction opposite to the object’s motion
– The force produces a _________ that reduces the
speed
• This is the principle used by automobile seat belts
Newton’s Second Law of Motion
Newton’s Second Law of Motion
• Math practice page 367
– # 1-4
Weight and Mass
• Weight and Mass are _____ the same
• Weight- the force of gravity acting on an
object
– an object’s weight is the ______ of the object’s
mass and acceleration due to ______ (9.8 m/s2)
acting on it
– Same units as force
Weight and Mass
• The weight formula is basically Newton’s 2nd
law.
• Mass and Weight are _________
– Doubling the mass also doubles the weight
• Mass is a measure of the _____ of an object
– The amount of matter in an object
• Weight is a measure of the _____ of gravity
acting on an object
• Think about an astronaut on Earth and on the
Moon
Newton’s Third Law of Motion
and Momentum
Chapter 12 Section 3
Page 372-377
Newton’s Third Law of Motion
• Force _____ exit alone, it always exist in ____
• 3rd Law states: whenever an object exerts a
force on a second object, the second object
exerts an equal and opposite force on the first
object
– The two forces are called
_____________________
• Think about bumper cars
Action and Reaction Forces
• In bumper cars…
– Action force is the force your bumper car exerts
on the other car
– Reaction force is the force the other car exerts on
your car
– The 2 forces are ______ in size and opposite in
direction
Action-Reaction Forces and Motion
Action-Reaction Forces Do Not Cancel
• The forces do ____ cancel because the action
and reaction forces do not act on the same
_____.
• Only when equal and ________ forces act on
the same object do they result in a net force
of zero.
Momentum
• ________- the product of an object’s mass
and its velocity
– An object with a ____ momentum is hard to stop
– An object has large momentum if the product of
its mass and ________ is large
– Any object at rest has _____ momentum
– Units are kilogram-meters per second (kg*m/s)
Momentum= mass x velocity
Conservation of Momentum
• In physics, conservation means that something
has a _______ value
• Conservation of Momentum- momentum does
not increase or decrease
• The law of conservation of momentum- if no net
force acts on a ______, then the total momentum
of the system does not change
• In a closed system, the loss of momentum of
one object ______ the gain in momentum of
another object (momentum is conserved)
Conservation of Momentum
Conservation of Momentum
Universal Forces
Chapter 12 Section 4
Page 378-382
Electromagnetic Forces
• Electromagnetic Forces is associated with
_______ particles
• Electric force and magnetic force are the only
forces that can _____ attract and repel
Electric Forces
• Electric forces act between charged objects or
particles such as ________ and protons
– Objects with opposite charges attract one another
– Objects with _____ charges repel one another
Magnetic Forces
• Magnetic forces act on
______ metals, on the
poles of magnets, and
on moving charges
• Magnets have two
______, north and
south (these 2 attract
each other)
– Poles that are alike repel
each other
Nuclear Forces
• Think about the ______ of an atom
– 2 forces, the strong nuclear force and the weak
nuclear force, act within the nucleus to hold it
together
• ______ Nuclear Force- a powerful force of
attraction that acts only on the neutrons and
protons in the nucleus, holding them together
• _____ Nuclear Force- an attractive force that
acts only over a short range
Gravitational Force
• _______- the weakest universal force, but the
most effective force over long distances
• Gravitational Force- an attractive force that
acts between any two _____
• Newton’s law of universal gravitation states
that every object in the ________ attracts
every other object
Gravitational Force
• Gravity acts over large distances
– Gravitational force between 2 objects is
proportional to their masses and ________ rapidly
as the distance between the masses ________
• The greater the mass, the greater the gravitational
force
Gravitational Force
• The Earth, Moon and Tides
– The moon has ______, so according to Newton’s 1st
law, it should continue to move along in a straight
path until acted upon by a ______
• The force is Earth’s gravitational force which pulls the moon
toward it- causes a nearly ______ orbit around Earth
• The pull causes 2 bulges in Earth’s oceans (side closest to the
moon and farthest from the moon), since Earth also has
rotation, this causes high and low tide
– _______________- a center-directed force that
continuously changes the direction of an object to
make it move in a circle
Gravitational Force
Gravitational Force
• Satellites in Orbit
– Much like the moon, the satellite needs only the
_________ force provided by gravity and its inertia to
maintain its orbit
– Satellites in ____ orbit, however, are slowed by friction
with Earth’s atmosphere. As it loses speed, it also loses
altitude, eventually burning in the atmosphere
• Uses of Satellites
– Monitor Earth’s weather, create detailed radar maps of
Earth’s surface, use telescopes to gaze deep into space,
study Earth’s climate, allow for cell phone and tv signals
Works Cited
Frank, Wysession, & Yancopoulos. “Chapter 12
Forces and Motion.” Physical Concepts in Action.
Upper Saddle River: Pearson, 2010. 356-382.
Print.