balance and unbalanced forces
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Transcript balance and unbalanced forces
Why does Time pass more slowly for
observers traveling at high speeds or
near a massive body.
PASS Content Standard 2.1
Objects change their motion only when
a net force is applied. Laws of motion are
used to determine the effects of forces
on the motion of objects.
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Motion - 12 min
• Earth rotates
on its axis
at 1,100 mph
• Earth orbits
the Sun at
68,000 mph
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• The whole galaxy rotates
at 490,000 mph
Two Dimensional World
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Speed - 4 min
distance
Speed =
time
A snail crawls 10 feet in 5 minutes.
What is the speed of the snail?
distance
Speed =
time
10 feet
=
= 2 feet/min
5 minutes
total distance
Average speed =
total time
A boy runs 1 mile in 6 minutes, rests for
2 minutes, then walks 1 mile in 12
minutes. What is his average speed?
total distance
Average speed =
total time
1 mile + 1 mile
=
2 miles
=
20 minutes
20 minutes
Distance
(meters)
Time (seconds)
is a vector quantity
because it has both
speed and direction.
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Vectors - 12 min
All these planes have
the same speed.
How is
their
velocity
different?
The length of the line represents
the quantity (speed) and the arrow
indicates the direction.
Add vectors head to tail.
Direction is
indicated by
compass degrees
The magnitude
of the speed is
indicated by
the measured
length (scale)
of the line.
90
o
An airplane is flying 200
o
mph at 50 . Wind velocity
o
is 50 mph at 270 . What
is the velocity of the plane?
180
o
0
270
o
o
90
180
o
o
0
270
o
o
90
180
o
o
0
270
o
o
90
180
o
o
0
270
o
o
90
180
o
o
0
270
o
o
90
180
o
o
0
270
o
o
Velocity(final) - Velocity(original)
Acceleration
=
time
A car traveling at 60 mph accelerates to
90 mph in 3 seconds. What is the
car’s acceleration?
Acceleration
=
Velocity(final) - Velocity(original)
time
=
=
90 mph - 60 mph
3 seconds
30 mph
3 seconds
= 10 mph/second
A car traveling at 60 mph slams on the breaks to
avoid hitting a deer. The car comes to a safe stop
6 seconds after applying the breaks. What is the
car’s acceleration?
Acceleration =
Velocity(final) - Velocity(original)
time
=
=
0 mph - 60 mph
6 seconds
- 60 mph
6 seconds
= - 10 miles per hour per second
Acceleration toward the
center of a circular path.
For an object to travel in a
curved path, some force must
be accelerating it
toward the center
of the circle.
Force provided
by engine
Acceleration
provided
by tires
What happens if
the accelerating
force is removed?
An apparent force
that appears only
in rotating frames
of reference.
This “false” force
appears to push
away from the
center of the
circular path.
Aristotle and Newton had different
ideas about forces and motion.
Aristotle's idea: For an
Newton's idea: An object
object to move at a constant
speed, a constant force
must be applied.
moving at a constant speed
will continue at that speed
without additional force
being applied.
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Forces & motion - 6 min
Produce
NO
Motion
Produce
Motion
Sliding - two solid surfaces rubbing
against each other.
Rolling - an object rolling over
a surface.
Fluid - an object moving
through a fluid.
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Newton’s Laws - 5 min
An object at rest will
remain at rest, and a
moving object will
remain at a constant
velocity unless acted
on by unbalanced forces.
F = Ma
Force = mass X acceleration
For every action,
there is an equal
and opposite
reaction.
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Rockets - 6 min
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Momentum - 8 min
Does a long pendulum swing
faster than a short one?
Does a heavy pendulum swing
faster than a light one?
The total momentum of
any group of objects
remains the same
unless acted on by
outside forces.
Elastic - occur when both momentum
and kinetic energy are conserved.
Inelastic - occur when
momentum is conserved,
but kinetic energy is not.
M1V1 = M2V2
Before
After
Colliding objects have same mass
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Elastic Collision
Heavy object strikes light object
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Elastic Collision
Light object strikes heavy object
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Elastic Collision
Colliding objects have same mass
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Inelastic Collision
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Rollercoasters - 24 min
Units of Force are Newtons
Units of Distance are Meters
Newton
Meters = Joules
Power is the rate
at which work is done.
Units of Work are Joules
Joules per second = Watts
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Work & Power - 15 min
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power - 2 min
1 Horsepower
is equal to
745.56 Watts
or
550 ft lb/sec
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Climbing cars - 24 min
The effort force is
applied to a machine.
The resistance force is
applied by a machine.
The number of times a machine
multiplies the effort force.
Work output
Work input X 100
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Da Vinci - 8 min
Work is made easier because
the effort force moves over
a greater distance.
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Inclined Plane - 2 min
Force is multiplied since it is
applied to a wide area and
exerted over a small area.
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Wedge - 2 min
Multiplies an effort force
by acting through a
long effort distance.
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Screw - 1 min
A bar which can move
freely around a fixed
position, or fulcrum.
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Levers - 3 min
The Fulcrum is between
the Effort Force and
the Resistance force
Multiplies Effort Force and
changes its direction
The Resistance is
between the Effort Force
and the Fulcrum
Multiplies the Effort Force but
does not change its direction
The Effort force is
between the Resistance
Force and the Fulcrum
Does not multiply the Effort Force
Direction of
the Effort Force
is changed.
Mechanical Advantage = 0
Direction of
the Effort Force
is not changed.
Mechanical Advantage = 1
Direction of the Effort
Force is changed.
Mechanical Advantage
is equal to the number
of supporting ropes.
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Pulleys - 1 min
A fixed pulley
does not have
a mechanical
advantage.
Fixed pulleys
only change
the direction
of the force.
A movable pulley
does have a
mechanical
advantage.
The effort force
is in the direction
of the movement
of the resistance.
Two wheels of different sizes
connected - the axle being
the smaller wheel.
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Wheel & Axle - 1 min
Worm Gear
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Compound Machines - 4 min