mechanical energy total mechanical energy. total mechanical energy (e t ): energy can be transferred...
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![Page 1: Mechanical Energy Total Mechanical Energy. Total Mechanical Energy (E T ): Energy can be transferred or transformed, never lost Law of Conservation of](https://reader033.vdocuments.us/reader033/viewer/2022061304/5513e2e35503466f748b554b/html5/thumbnails/1.jpg)
Mechanical Energy
Total Mechanical Energy
![Page 2: Mechanical Energy Total Mechanical Energy. Total Mechanical Energy (E T ): Energy can be transferred or transformed, never lost Law of Conservation of](https://reader033.vdocuments.us/reader033/viewer/2022061304/5513e2e35503466f748b554b/html5/thumbnails/2.jpg)
Total Mechanical Energy (ET): Energy can be transferred or transformed,
never lost Law of Conservation of Energy
kgT EEE *If friction negligible
If friction is not negligible then….
FrictionkgT EEEE
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A 56kg diver runs & dives from the edge of a cliff into the water which is located 4m below. If she is moving at 8m/s the instant she leaves the cliff, determine the speed at which she enters the water.
Before Jump At Water Level
Eg Ek Eg Ek
m = 56 kg
g = 9.8 N/kg
h = 4 m
m = 56 kg
v = 8 m/s
m = 56 kg
g = 9.8 N/kg
h = 0 m
m = 56 kg
v = ?
kgT EEE kgT EEE =
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TT EE
Before Jump At Water Level
kgT EEE kgT EEE
)4)(8.9)(56(gE
JEg 2.2195
2)8)(56(2
1kE
JEk 1792
JET 2.3987
)0)(8.9)(56(gE
JEg 0
kE02.3987
JEk 2.3987
2))(56(2
12.3987 v
smv /93.11
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A child throws a 0.2kg rock at a tree. When the rock leaves the child’s hand, it is moving at 20m/s & is located 1.5m above the ground. How high above the ground does the rock strike the tree if it is moving at 10m/s at that instant?
Throw Tree
Eg Ek Eg Ek
m = 0.2 kg
g = 9.8 N/kg
h = 1.5 m
m = 0.2 kg
v = 20 m/s
m = 0.2 kg
g = 9.8 N/kg
h = ?
m = 0.2 kg
v = 10 m/s
kgT EEE kgT EEE =
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TT EE
Throw Tree
kgT EEE kgT EEE
)5.1)(8.9)(2.0(gE
JEg 94.22)20)(2.0(
2
1kE
JEk 40
JET 94.42
2)10)(2.0(2
1kE
JEk 10
1094.42 gE
JEg 94.32
)(?)8.9)(2.0(94.32 mh 81.16
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A 2 kg ball rolls along a frictionless surface. It passes point C at a speed of 20m/s. What was the speed of the ball at point A?
Point A Point CEg Ek Eg Ek
m = 2 kg
g = 9.8 N/kg
h = 20 m
m = 2 kg
v = ? m/s
m = 2 kg
g = 9.8 N/kg
h = 25 m
m = 2 kg
v = 20m/s
kgT EEE kgT EEE =
A C
20 m25 m
![Page 8: Mechanical Energy Total Mechanical Energy. Total Mechanical Energy (E T ): Energy can be transferred or transformed, never lost Law of Conservation of](https://reader033.vdocuments.us/reader033/viewer/2022061304/5513e2e35503466f748b554b/html5/thumbnails/8.jpg)
TT EE
Point A Point C
kgT EEE kgT EEE
)20)(8.9)(2(gE
JEg 392
)25)(8.9)(2(gE
JEg 490
JEk 400
2)20)(2(2
1kE
JET 890
kE392890
JEk 498
2))(2(2
1498 v
smv /32.22
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A force of 16N is applied to a 400g mass, starting at rest, over a distance of 5m. How long does it take the mass to move 5m?
Before After 5m
Eg Ek Eg Ek
Eg = 0 m = 0.4 kg
v = 0 m/s
Eg = 0 m = 0.4 kg
v = ?
Recall, work = energy
So work applied to move mass 5m
Law of Conservation
of Energy
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dFW )5)(16(appliedW
JWapplied 80
Work required to set block in
motion
initialfinal kkappliedapplied EEEW
22 )0)(4.0(2
1))(4.0(
2
180 v
smv /20
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atvv 12
t)40(1020
advv 221
22
)5)((2020 22 a
2/40 sma st 5.0
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You are playing with a toy slider track.
The top of the “hump” is 1.2m above the level of the slider at the beginning of the track. The average force of friction between the 0.15kg slider & the track is 0.11N. The distance from point A to point B along the track is 2.3m.
You propel the slider by applying a constant force of 6.6N hoping to get it over the “hump”. How far must you push the slider to ensure that it makes it over the “hump”?
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Top:
)2.1)(8.9)(15.0(gE
JEg 764.1
JEk 0
BUT….friction… Recall, work = energy
FdWE FricFric
)3.2)(11.0(FricW
JWE FricFric 253.0
JET 017.2
Bottom:
JET 017.2
Recall, energy= work
JWE appliedT 017.2
))(6.6(017.2 dmd 3056.0