Work and Energy Conservation Law Work and Energy Work is a force applied to an object that causes...
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Transcript of Work and Energy Conservation Law Work and Energy Work is a force applied to an object that causes...
![Page 1: Work and Energy Conservation Law Work and Energy Work is a force applied to an object that causes the point of application of the force to move through.](https://reader035.fdocuments.in/reader035/viewer/2022081603/56649e175503460f94b0310f/html5/thumbnails/1.jpg)
Work and Energy
Conservation Law
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Work and Energy
Work is a force applied to an object that causes the point of application of the force to move through some distance
Energy is the capacity of an object to do work
Unit: Joules Energy and work are scalar quantities
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Work
Is work a dot product or a cross product?
W Fd cos
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Example problem
A man cleaning a floor pulls a vacuum cleaner with a force of magnitude F= 50.0 N at an angle of 30.0º with the horizontal. Calculate the work done by the force on the vacuum cleaner as the vacuum cleaner is displaced 3.00m to the right.
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Answer
W=Fd cos θ W= 50.0 N (3.00m) cos 30º W = 130 J
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Work a Scalar Product
Work is the dot product of Force and Displacement
W F d
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Work Done by a Constant Force A particle moving in the xy plane undergoes
a displacement as shown below in a constant force as given below acts on the particle. A) Calculate the magnitude of the displacement and that of the force. B) Calculate the work done on the object.
d i j m
F i j N
( . . )
( . . )
2 0 30
50 2 0
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Answerd x y
d
d m
2 2
2 22 0 30
36
( . ) ( . )
.
F F F
F
F N
x y
2 2
2 250 2 0
54
( . ) ( . )
.
W F d
W i j i j
W i i i j j i j j
W J
( . . ) ( . . )
( . . ) ( . . ) ( . . ) ( . . )
50 2 0 2 0 30
50 2 0 50 30 2 0 2 0 2 0 30
10 0 0 6 16
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Work Done by a Varying Force Imagine a particle undergoes a very
small displacement Δx The Fx is approximately constant over
this small displacement. Work done can be expressed as
W F xx
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Force vs. displacement
01
234
56
1 2 3 4 5 6
Displacement
Fo
rce
Series1
Graph of a Varying Force
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Work Done by a Varying Force
W F x
W F x
W F dx
x
xx
x
x
xx
x
i
f
i
f
lim
0
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Work
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Integration
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Work Video
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Power
Power is the rate of doing work or of transferring energy.
Pdw
dt
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Power Units
Power is measured in joules per second.
1 J/s = Watt 1 hp = 746 W
1 kWh = 3.6 x 106W
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Power and Force
If force F causes a particle to undergo a displacement ds, the work done is dW=F•ds.
Since ds/dt is v the power is given by the following formula:
PdW
dt
PF ds
dtP F v
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Problem
Consider a car traveling at a steady speed of 60 km/h (16.7 m/s). It encounters a frictional force (rolling and air drag) of 520 N. At what power level does the engine deliver energy to the wheels?
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Answer
P = Fv 8.68 kW 11.6 hp