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Transcript 
Work and Kinetic Energy
–
Energy (and mass) is Conserved
 Energy
is “Conserved” meaning it
can not be created nor destroyed
Can change form
Can be transferred
 Total
Energy does not change with
time.
This
is a BIG deal!
10
Energy
 Forms
Kinetic Energy
Potential Energy
Heat
Mass (E=mc2)
 Units
Motion (Today)
Stored (Wednesday)
later
p122
Joules = kg m2 / s2
12
Work by Constant Force
A) W>0
B) W=0
C) W<0
 Only
component of force parallel to
direction of motion does work!
W = F Dr cos q
F
1)
Dr
F
2)
Dr
F
3)
4)
Dr
Dr
F
18
Example: Ball Toss
You toss a ball in the air.
What is the work done by gravity as
the ball goes up?
A) Positive
B) Negative
C) Zero
What is the work done by gravity as
the ball goes down?
A) Positive
B) Negative
C) Zero
20
Work by Constant Force
 Example: You pull a 30 N chest 5 meters
across the floor at a constant speed by applying
a force of 50 N at an angle of 30 degrees. How
much work is done by the 50 N force?
N
T
f
mg
50 N
30
21
Where did the energy go?
 Example: You pull a 30 N chest 5 meters
across the floor at a constant speed, by applying
a force of 50 N at an angle of 30 degrees.
 How much work did gravity do?
Dr
90
mg

N
How much work did friction do?
T
f
mg
f
Dr
180
25
Kinetic Energy: Motion
 Apply
constant force along x-direction to
a point particle m.
1 2 2
recall : ax Dx  (vx  vx 0 )
2

Work changes ½ m v2
 Define
W=DK
Kinetic Energy K = ½ m v2
For Point Particles
35
Example: Block w/ friction

A block is sliding on a surface with an initial speed of 5
m/s. If the coefficent of kinetic friction between the block
and table is 0.4, how far does the block travel before
y
stopping?
N
Y direction: F=ma
f
x
mg
W=DK
Work
5 m/s
44
Falling Ball Example
 Ball
falls a distance 5 meters, What
is final speed?
Only force/work done is gravity
mg
Example: block on incline
A 5kg block is at rest on a frictionless incline. It is pulled 4.5m by a
25N force. What is the final velocity of the block?
25N
5kg
30o
Work by Variable Force
W
= Fx Dx
Force
Work is area under F vs x plot
Work
Distance
Spring F = k x
» Area = ½ k x2 =Wspring
Force
Work
Distance
48
Summary
 Energy
is Conserved
 Work = transfer of energy using force
Can be positive, negative or zero
W = F d cos(q)
 Kinetic
Energy (Motion)
K = ½ m v2
 Work
= Change in Kinetic Energy
S W = DK
50
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