ap physics b ch, 5, 8, & 9 ppt review
DESCRIPTION
Review for Chapters 5, 8, and 9. 31 chapters total... there is chapter 5 again with 11. The creator made it so that topics flowed smoothly and integrated well overall. You can find the rest of the chapters for the powerpoints including topics... I am not including those anymore... tedious like this memo... I will sometime in the future. 4th Powerpoint out of 21.TRANSCRIPT
![Page 1: AP Physics B Ch, 5, 8, & 9 PPT Review](https://reader033.vdocument.in/reader033/viewer/2022061518/5527c0f54a79591b118b47aa/html5/thumbnails/1.jpg)
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![Page 2: AP Physics B Ch, 5, 8, & 9 PPT Review](https://reader033.vdocument.in/reader033/viewer/2022061518/5527c0f54a79591b118b47aa/html5/thumbnails/2.jpg)
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![Page 3: AP Physics B Ch, 5, 8, & 9 PPT Review](https://reader033.vdocument.in/reader033/viewer/2022061518/5527c0f54a79591b118b47aa/html5/thumbnails/3.jpg)
Periodic Motion
• Repetitive, cyclical motion that occurs along the same path in a fixed period of time
• Uniform Circular Motion (UCM) path = circle• 1 cycle = 1 revolution
# of revolutions frequency = 1 second (or minute)
f
# of seconds period = 1 complete revolution
T
Inverse relationship between T, f 1 1
= T ff T
3
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Frequency – Period Relationship
T = 2 s f = ?
f = 2 revs/sec
1 s
0 s
T = ?
4
![Page 5: AP Physics B Ch, 5, 8, & 9 PPT Review](https://reader033.vdocument.in/reader033/viewer/2022061518/5527c0f54a79591b118b47aa/html5/thumbnails/5.jpg)
5-1 Kinematics of Uniform Circular Motion
Uniform circular motion: motion in a circle of constant radius at constant speed
Instantaneous velocity is always tangent to circle.
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Uniform Circular Motion (UCM)• Object revolving around a center point in a
circular path at a constant speed v
2 r v =
T
circle circumferenceSpeed r circular path radius
period
![Page 7: AP Physics B Ch, 5, 8, & 9 PPT Review](https://reader033.vdocument.in/reader033/viewer/2022061518/5527c0f54a79591b118b47aa/html5/thumbnails/7.jpg)
• Can an object moving at constant speed be accelerating?
• Velocity is constantly changing due to its change in direction as it moves around the circle
• Change in velocity means the object is accelerating
![Page 8: AP Physics B Ch, 5, 8, & 9 PPT Review](https://reader033.vdocument.in/reader033/viewer/2022061518/5527c0f54a79591b118b47aa/html5/thumbnails/8.jpg)
5-1 Kinematics of Uniform Circular MotionLooking at the change in velocity in the limit that the time interval becomes infinitesimally small, we see that
(5-1)
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5-1 Kinematics of Uniform Circular Motion
This acceleration is called the centripetal, or radial, acceleration, and it points towards the center of the circle.
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Centripetal Force
• Net force directed radially towards center of circle
• Causes the centripetal acceleration• Responsible for changing the direction of the
velocity vector so object moves in circular path
2
c c
vF ma m
r
•You must be able to identify the applied force that provides the centripetal force causing UCM
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11
Tension in string creates centripetal force
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UCM Vertical Circles• Centripetal force provided by a net force of 2 applied forces
• Two different cases
• vertical “loop-the-loop” track
• normal force and weight
• ball on a string
• Tension and weight
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Vertical circle – ball on a string
Top:
r
vmmgT
2
Bottom:
r
vmmgT
2
r
Approach for solving any UCM problem:
Set net force = mv2/r
+
v
v
Fc stays constant at all points.
Tension changes due to inclusion of weight force
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Critical velocity at top of a vertical circle
Minimum velocity necessary to keep object in circular path
Occurs when the normal force (or tension in string) = 0
2
2
N
mvF mg
r
mvmg
r
v rg
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When a car goes around a curve, there must be a net force towards the center of the circle of which the curve is an arc. If the road is flat, that force is supplied by friction.
There are no centrifugal forces pushing person against door
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Determine maximum speed car can have to round a horizontal circular turn and not skid out of circle
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Max speed derivation
max
2
2
,s c
s N
s
s
f F
mvF
r
mvmg
r
u rg v
speed is independent of car’s mass
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Predict direction of object upon leaving UCM circle
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Chapter 8
Rotational Motion
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8-4 TorqueTo make an object start rotating, a force is needed; the position and direction of the force matter as well.
The perpendicular distance from the axis of rotation to the line along which the force acts is called the lever arm.
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8-4 Torque
A longer lever arm is very helpful in rotating objects.
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8-4 Torque
Here, the lever arm for FA is the distance from the knob to the hinge; the lever arm for FD is zero; and the lever arm for FC is as shown.
lever arm
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8-4 Torque
The torque is defined as:
(8-10a)
lever arm
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Chapter 9
Static Equilibrium
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2 conditions for equilibrium
1) Fy = 0 and Fx = 0
2) The net torque about any axis = 0
All objects will be in static equilibrium – no motion
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3 different types of equilibrium problems in chapter 9
1st type does not have any torques to consider
Key is to resolve vectors into x, y components correctly
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2nd type is balancing a horizontal beam
• beam does not have any significant mass
• must calculate both forces and torques
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3rd type is beam balancing again
• Beam does have significant mass that is concentrated at its center of gravity (CG) = point where all of its weight could be concentrated
• It is convenient to use one end of the beam as the axis of rotation – this causes the lever arm for that force = 0, thus simplifying the net torque calculation.