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AP Physics Chapter 6

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Title: AP Physics Chapter 6


1
AP Physics Chapter 6
  • Force and Motion II

2
AP Physics
  • Turn in Chapter 5 Homework, Worksheet Lab
    Report
  • Take Quiz 6
  • Lecture
  • QA

3
Review on Chapter 5
  • Newtons Second Law ?F ma
  • Newtons Third Law Action and Reaction Forces
  • Forces
  • Weight
  • Normal Force
  • Tension
  • Apparent Weight

4
Four Fundamental (Basic) Forces in Nature
  • Gravitational Force
  • Electromagnetic Force
  • Strong (Nuclear) Force
  • Weak (Nuclear) Force

5
Gravitational Force
  • Gravity or Weight (Gravitational force Earth
    pulling on objects around it) W
  • Gravitational force always exist, but value of g
    can be different at different location.
  • On surface of earth, g 9.81 m/s2.
  • Higher elevation, smaller g.
  • Higher latitude, larger g.

6
Electromagnetic Force
  • Almost all other forces we encounter in daily
    life are electromagnetic force in nature.
  • Electric force F
  • Magnetic force F
  • Tension (pull, string) T
  • Push F
  • Normal (support) N (not to be confused with
    Newton, the unit of force)
  • Friction ƒ (ƒs or ƒk)

7
Strong (Nuclear) Force
  • Holds protons and neutrons within the nucleus
  • Exist in very short distance only (? 10-15 m)
  • Stable nucleus

8
Weak (Nuclear) Force
  • Also holds protons and neutrons within the
    nucleus
  • Also very short range (? 10-15 m)
  • Not strong enough. Protons and neutrons can
    escape ? nuclear reaction
  • Unstable nucleus

9
Relative Strength of Forces
Electromagnetic
Gravitational
Weak
Strong
10
Force at Distance
  • Contact force
  • Force giver and receiver must be in contact
  • Tension, push, normal force, friction,
  • Field force / Distant force
  • Force giver and receiver do not have to be in
    contact
  • Gravity, electric force, magnetic force,

11
Unification of Forces
  • Electromagnetic and weak forces have been unified
    into (understood as) one force Electroweak force
  • It is believed that all four forces are different
    aspects of a single force.
  • Grand Unification Theories (GUTs) and
    Supersymmetric theories
  • Not yet successful

12
Friction
  • Friction force opposing relative motion or
    tendency of relative motion between two rough
    surfaces in contact
  • Smooth surface ? No friction
  • No normal force ? No friction

13
Two kinds of frictions
  • Static friction
  • ?s coefficient of static friction
  • Static friction force is not constant, it has a
    maximum.
  • Kinetic (or sliding) friction
  • ?k coefficient of kinetic friction
  • Kinetic friction force is constant.
  • ? is a constant depending on the properties of
    the two surfaces
  • ? 0 when one of the surfaces is smooth
    (frictionless.)
  • ?s gt ?k for same surfaces.
  • ? has no unit.

14
ExampleWhat happens to the frictional force as
you increase the force pushing on a table on the
floor?
But what if the applied force increases just
slightly?
Table not moving yet. Static friction increases
as applied force increases. fs Fapp
?sN

Once table is moving, a smaller constant kinetic
friction. fk lt fs, max




0
?sN
15
Is friction always opposite to motion?
When you step on the pedal
4
1
7
5
2
3
6
16
Example
  • A trunk with a weight of 220N rests on the floor.
    The coefficient of static friction between the
    trunk and the floor is 0.41, while the
    coefficient of kinetic friction is 0.32.
  • a). What is the minimum magnitude for a
    horizontal force with which a person must push on
    the trunk to start in moving?
  • b) Once the trunk is moving, what magnitude of
    horizontal force must the person apply to keep it
    moving with constant velocity?
  • c) If the person continued to push with the force
    used to start the motion, what would be the
    acceleration of the trunk?

17
Solution
W
Similarly,
18
Solution
19
Example Pg135-57
  • The coefficient of kinetic friction in between
    the incline and the block is 0.20, and angle ? is
    60o. What is the acceleration of the block if
  • a) It is sliding down the slope and
  • b) It has been given an upward shove and is
    still sliding up the slope?

?
20
Solution
21
Solution (2)
22
Practice
  • An 11 kg block of steel is at rest on a
    horizontal table. The coefficient of static
    friction between block and table is 0.52.
  • What is the magnitude of the horizontal force
    that will just start the block moving?
  • What is the magnitude of a force acting upward
    60o from the horizontal that will just start the
    block moving?
  • If the force acts down at 60o from the
    horizontal, how large can its magnitude be
    without causing the block to move?

23
Solution
24
Solution (2)
  • c)

Similarly to Part b), we have
Another approach is to use the same equation as
in b) but change the angel to 60o.
25
Practice Pg133-21
  • Block B in the diagram weighs 711 N. The
    coefficient of static friction between block and
    horizontal surface is 0.25. Find the maximum
    weight of block A for which the system will be
    stationary?

30o
B
A
26
Solution Pg133-21
27
Drag Force
  • Drag Force
  • C drag constant (not a true constant)
  • ? density of fluid (air or liquid)
  • A cross-sectional area of object moving in
    fluid
  • v speed of object relative to fluid

Source fluid in relative motion pushing on
object Direction opposing relative motion of
object relative to fluid, same direction as
relative motion of fluid
28
Terminal velocity
Initially, v small ? D
small
W _____ D
gt
Fnet
downward
downward
? a
? v
increases
Increases
? D
Eventually, D ___ W
0
? Fnet

? v
0
constant
? a
29
Practice Pg133-33Calculate the ratio of the
drag force on a jet flying with a speed of 1000
km/h at an altitude of 10 km to the drag force on
a prop-driven transport flying at half the speed
and half the altitude. The density of air is
0.38 kg/m3 at 10 km and 0.67 kg/m3 at 5.0 km.
Assume that the airplanes have the same effective
cross-sectional area and the same drag
coefficient C.
30
Review Uniform Circular Motion and Centripetal
Acceleration
, where
  • Direction of acceleration is always toward the
    center of circle (or circular arc)
  • ? Centripetal

31
Centripetal Force
  • Centripetal force is in general not a single
    physical force rather, it is in general the net
    force.
  • Do not draw centripetal force on force diagram
    (Free Body Diagram)

32
Examples of centripetal forces
Rear View
  • Rounding a curve in a car
  • Flat curve

Static friction provides the centripetal force
(when no skidding)
Max velocity w/o skidding
  • Banked curve

a component of Normal force (net force)
No friction
  • Orbiting the Earth (Sun or other object)
  • Gravity

33
Example Pg138-87A car weighing 10.7 kN and
traveling at 13.4 m/s attempts to round an
unbanked curve with a radius of 61.0 m. a) What
force of friction is required to keep the car on
its circular path?b) If the coefficient of
static friction between the tires and road is
0.35, is the attempt at taking the curve
successful?
Yes, successful.
34
Practice Pg135-50A banked circular highway
curve is designed for traffic moving at 60 km/h.
The radius of the curve is 200 m. Traffic is
moving along the highway at 40 km/h on a rainy
day. What is the minimum coefficient of friction
between tires and road that will allow cars to
negotiate the turn without sliding off the road?
35
Practice Pg134-45 (Modified wording)A student
of weight 667 N rides a steadily rotating Ferris
wheel (the student sits upright). At the highest
point, the apparent weight of the student is 556
N. (a) Does the student feel light or heavy
there? (b) What is the apparent weight at the
lowest point? If the wheels speed is doubled,
what is the apparent weight at the (c) highest
point and (d) lowest point?
a) Wapp lt W ? Feel light
Top
Bottom
36
Practice Pg134-45 (Modified wording)A student
of weight 667 N rides a steadily rotating Ferris
wheel (the student sits upright). At the highest
point, the apparent weight of the student is 556
N. (a) Does the student feel light or heavy
there? (b) What is the apparent weight at the
lowest point? If the wheels speed is doubled,
what is the apparent weight at the (c) highest
point and (d) lowest point?
37
Practice Pg139-107A certain string can
withstand a maximum tension of 40 N without
breaking. A child ties a 0.37 kg stone to one
end and, holding the other end, whirls the stone
in a vertical circle of radius 0.91 m, slowly
increasing the speed until the string breaks.
a) Where is the stone on its path when the
string break?b) What is the speed of the stone
as the string breaks?
  • a) In order to keep the same speed, and
    therefore the same centripetal force, the tension
    required is largest when the rock is at the
    bottom.

38
Practice Pg133-29Two blocks (m 16 kg and M
88 kg) are not attached to each other. The
coefficient of static friction between the blocks
is ?s 0.38, but the surface beneath the larger
block is frictionless. What is the minimum
magnitude of the horizontal force F required to
keep the smaller block from slipping down the
larger block?
m
F
m
M
M
39
Practice A little girl of mass m1 10 kg sits
on a slab of mass m2 20 kg on a frozen lake.
Between girl and slab, the coefficient of static
friction is 0.60, and the coefficient of static
friction between the sled and lake is 010. The
sled is pulled forward by a horizontal force F.
What is the maximum magnitude of F such that the
girl stays on the sled?
m1
F
m2
40
Practice (Continued)
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