1
AP Physics Exam 2 Review
Chapter 5-8
2
Newton’s Three Laws of Motion
1st: An object with no net force acting on it remains at rest or moves with constant velocity in a straight line.
2nd:
3rd: When one object exerts a force on a second object, the second object also exerts a force on the first object that is equal in magnitude but opposite in direction.
F ma
Action and reaction forces always exist together.
3
Free Body (Force) Diagram
Draw all forces acting on the object being considered– Ignore all forces this object acting on other objects– Draw forces starting from center of object or at
points of action– Make sure each force giver can be identified
4
Normal Force (N, but not Newton)
Given by the surface in contact to support the object.
NN
N
Fapp
• No contact No normal force• No tendency to move into surface No normal force
Always perpendicular to the surface in contact. Points from surface to the object
5
Tension
Tension is along the string and points away from the object of consideration.
T
6
Weight and Apparent Weight
Apparent weight is either tension or normal force.
T
W mgN
Weight or gravity: gravitational force the Earth pulling on object around it
Always straight downward.
7
Two kinds of frictions
Static friction: ,maxs sf N
k kf N Kinetic (or sliding) friction:
s sf N
8
Examples of centripetal forces
Rounding a curve in a car
max sv Rg
tanv Rg
Max velocity w/o skidding
– Flat curve:
– Banked curve:
Orbiting the Earth (Sun or other object)– Gravity
N
f
W
Static friction provides the centripetal force (when no skidding)
a component of Normal force (net force)
Rear View
N
W
No friction2
1tanv
Rg
9
Kinetic Energy, K
Kinetic Energy: ability to do work due to motion
21
2K mv
10
Work Done by A Constant Force
W F d ����������������������������
W: a scalar, no direction W < 0 if > 90o.
cosFd x x y y z zF d F d F d
F
d
11
Work-Kinetic Energy Theorem
The total work done on an object is equal to the change in the kinetic energy of that object
W K f iK K
12
Work (Wg) Done by Weight (Fg)
cosgW mgd
gW mg h
cosW Fd
13
Work Done by a Variable Force
W Fd 1-D
or: Area under curve of
Force-position graph
( )f
i
x
x
W F x dx
14
Spring Force and Work
Hook’s Law: Spring force is given by
Notice that this force is the force exerted by the spring, not the force you apply to compress or stretch the spring.
o r F F kk x x ����������������������������
sW 2 21 1
2 2s i fW kx kx f
i
x
xFdx f
i
x
xkx dx
Work done by spring force:
15
Power
Average Power: WP
t
dWP
dt F v
cosFv or x x y y z zF v F v F v
Instantaneous Power:
16
Potential Energy U (Ug or Usp)
Gravitational Potential Energy:
gU mgy
21
2spU kx
Spring (Elastic) Potential Energy:
17
Force and Potential Energy
dUF
dx
For each potential energy, there is a conservative force associated with it.
U W
18
(Total) Mechanical Energy, E
Sum of kinetic and potential energy:
mecE K U
E K U
or simply,
g sK U U
19
Conservation of Mechanical Energy
When only conservative forces are doing work within a system, the kinetic energy and potential energy can change. However, their sum, the mechanical energy E of the system, remains unchanged.
i fE E
i i f fK U K U 0E K U
K U
20
Work Done By External Force
Work done by external force will change the total mechanical energy of the system:
ext mecW E
If there is also kinetic friction,
ext f mecW W E ext mec thW E E
where is the heat gain (change in thermal energy) f kthE W f d
Total Energy: inttot mec thE E E E
Eint = Chemical Energy & Nuclear Energy
21
Work and Energy Change
ext mecW E
Total work done by __________________________.
W K
Total work done by _______________________________.
Work-Kinetic Energy Theorem:
all external forces (excluding spring force and gravity)
all external forces, normally including spring force and gravity.