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L-9 Conservation of Energy, Friction and Circular Motion
• Kinetic energy, potential energy and conservation of energy
• What is friction and what determines how big it is?
• Friction is what keeps our cars moving
• What keeps us moving in a circular path?
• centripetal vs. centrifugal force
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Kinetic energy
• If something moves in any way, it has kinetic energy
• kinetic energy (KE) is energy of motion
• If I drive my car into a tree, the kinetic energy of the car can do work on the tree – it can knock it over KE = ½ m v2
m v
KE does not depend on which direction the object moves
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Potential energy• If I raise an object to some height (h) it also has
energy – potential energy • If I let the object fall it can do work• We call this Gravitational Potential Energy
GPE= m x g x h = m g h
m in kg, g= 10m/s2, h in m, GPE in Joules (J)
• the higher I lift the object the more potential energy it gas
• example: pile driver, spring launcher
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conservation of energy
• if something has energy it doesn’t loose it
• It may change from one form to another (potential to kinetic and back)
• KE + PE = constant• example – roller coaster• when we do work in
lifting the object, the work is stored as potential energy.
h
mg
W=mgh
W stored asGPE = mgh
mg
PE regainedas KE
F
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Amusement park physics• the roller coaster is an
excellent example of the conversion of energy from one form into another
• work must first be done in lifting the cars to the top of the first hill.
• the work is stored as gravitational potential energy
• you are then on your way!
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Up and down the track
PE
Kinetic Energy
PE
If friction is not too big the ball will getup to the same height on the right side.PE KE
Total energy
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Loop-the-loop
Here friction works to our advantage. Without it the ball slides rather than rolls.
A ball won’t roll without friction!
h
R
The ball must start at a height h, at least2 ½ times R to make it through the loop
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What is friction?
• Friction is a force that acts between two surfaces that are in contact
• It always acts to oppose motion
• It is different depending on whether or there is motion or not.
• It is actually a force that occurs at the microscopic level.
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A closer look at friction
At the microscopic level even two smooth surfaces look bumpy this is what produces friction
Magnified view
of a smoothsurface
25 microns
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Static friction
If we push on a block and it doesn’t move thenthe force we exert is less than the friction force.
push, P friction, f
This is the static friction force at work
If I push a little harder, the block may still not move the friction force can have any value upto some maximum value.
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Kinetic friction• If I keep increasing the pushing force, at
some point the block moves this occurs when the push P exceeds the maximum static friction force.
• When the block is moving it experiences a smaller friction force called the kinetic friction force
• It is a common experience that it takes more force to get something moving than to keep it moving.
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Homer discovers that kinetic friction is less than static friction!
DUFFBEER
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Measuring friction forces
At some point as the angle if the plane is increasedthe block will start slipping. At this point, the friction force and gravity are equal.
Force of block
on incline
“Normal” Forceof incline on block
mg
Fg, incline
friction
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Going in circles
Bart swings the tennis ball around his head in a circle. The ball is accelerating, what force makes it accelerate? The tension in the string!
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Uniform circular motion
• Velocity means both the speed and direction
• Uniform here means that the speed is constant as the objects goes around
• The direction of v is changing constantly, so there is an acceleration a
• For this type of motion we call this acceleration centripetal acceleration
R v
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Centripetal acceleration, aC
R
v
aC
The accelerationpoints toward thecenter of the circle
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Centripetal force and acceleration
• centripetal acceleration •
magnitude
• in the direction toward the center of the circle
• since F = ma , some force is necessary to produce this centripetal acceleration,
• we call this a centripetal force we must identify this in each situation
v
aC R
2
C
va =
R
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Ball on a string
The tension in the stringprovides the necessarycentripetal force to keep the ball going in a circle.
path of ball if the stringbreaks
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Magnitude of centripetal acceleration
• The centripetal acceleration depends on two factors the speed with which you take the turn and how tight the turn is
• More acceleration is required with a higher speed turn
• more acceleration is required with a tighter turn smaller radius of curvature
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Carnival Ride
• There are 2 forces on the tennis ball- weight, mg and the tension, T
• The vertical part of the tension force TV supports the weight
• The centripetal forceis provided by the horizontal part, TH = mv2/R
TV
TH
mg
T
R
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big R
little R
for the same speed, the tighter turn
requires moreacceleration
Wide turns and tight turns
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Centripetal acceleration
• centripetal acceleration:
• for some turns, the “safe” speed is posted• a force is needed to produce this centripetal
acceleration• CENTRIPETAL FORCE• where does this force come from?
2
C
va =
R
R
v
ac, Fc
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Example• What is the tension in a string used to twirl a
0.3 kg ball at a speed of 2 m/s in a circle of 1 meter radius?
• Force = mass x acceleration [ m aC ]• acceleration aC = v2 / R = (2 m/s)2/ 1 m
= 4 m/s2
• force = m aC = 0.3 4 = 1.2 N• If the string is not strong enough to handle
this tension it will break and the ball goes off in a straight line.
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Negotiating a flat (level) turn
• The centripetal force is provided by the friction force between the road and tires.
• this force is reduced if the road is wet or icy
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Banked Turns
31 degree bank
Velodrome
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Banked turns • Since the road is banked (not horizontal) the force of the road on the box is not vertical
• Part of the force on the box from the road points toward the center of the circle
• This provides the centripetal force
• No friction is necessary to keep the box in the circle
R
N
FCENT
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What’s this Centrifugal force ? ?
• The red object will make the turn only if there is enough friction between it and the dash, otherwise it moves in a straight line
• The car actually slides out from under the object
• the apparent outward force (as seen by someone in the car) is called the centrifugal force
• it is NOT A REAL force! It is a fictitious force
• an object will not move in a circle until something makes it!
object onthe dashboard
straight lineobject naturally
follows