lecture 7 (yy/mm/dd) - sfu.ca · 3. to understand the concept of power and its relationship to...
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Classical Mechanics Lecture 7
Today’s Concepts:Work & Kine+c Energy
Mechanics Lecture 7, Slide 1
Name ____________________________ Date (YY/MM/DD) ______/_________/_______
SFU [email protected] Section__________ Group_____
UNIT 10: WORK AND ENERGYApproximate Classroom Time: Three 100 minute sessions
"Knowing is not enough; we must apply. Willing is not
enough; we must do."Bruce Lee
OBJECTIVES
1. To extend the intuitive notion of work as physical effort
to a formal mathematical definition of work as a function
of force and distance.
2. To develop an understanding of the physical significance
of mathematical integration.
3. To understand the concept of power and its relationship
to work.
4. To understand the concept of kinetic energy and its rela-
tionship to work as embodied in the work-energy theorem.
5. To relate experimentally determined kinetic energy loss
to frictional loss.
6. To apply concepts involving the conservation of momen-
tum, work, and energy to the analysis of breaking boards
in Karate.
© 1990-94 Dept. of Physics and Astronomy, Dickinson College Supported by FIPSE (U.S.
Dept. of Ed.) and NSF. Modified for SFU by N. Alberding, 2005.
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Karate
Will not do Session 3 of Unit 10.
It is a Karate thing.
You can do it as a “project” in Unit 14 instead of the assigned project on the pendulum.
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Which Job?
All three jobs pay the same amount of money. Which one would you choose for your crew?
A. Job 1
B. Job 2
C. Job 3
SESSION ONE: PHYSICAL WORK AND POWER30 min
The Concept of Physical Work
Suppose you are president of the Load 'n' Go Co. A local
college has three jobs available and will allow you to
choose which one you want before offering the other two
jobs to rival companies. All three jobs pay the same
amount of money. Which one would you choose for your
crew?
Figure 10-1: A description of jobs to bid on
!Activity 10-1: Choosing Your Job
Examine the descriptions of the jobs shown in Figure 10-1.
Which one would you be most likely to choose? Least likely to
choose? Explain the reasons for your answer.
Workshop Physics: Unit 10 – Work and Energy Page 10-3
Authors: Priscilla Laws, Robert Boyle, and John Luetzelschwab
© 1990-94 Dept. of Physics and Astronomy, Dickinson College Supported by FIPSE (U.S.
Dept. of Ed.) and NSF. Modified for SFU by N. Alberding, 2005, 2008.
A B B
C
4m x 100 x 10 kg x 9.8 N/kg = 39200J
8 m x 100 x 10 kg x 9.8 N/kg x 0.5 = 39200J
2 m x 50 x 20 kg x 9.8 N/kg = 19600 J
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Stuff you asked about:
WHAT IS GOING ON WITH ALL THE INTEGRALS?????? HELP :(I hate springs, but we should talk about them. staFc fricFon Everything is fine except the work done by Gravity far from earth The slides had a lot of informaFon that was confusing and it flew by. I
didn't have Fme to understand what was going on. The dot product is ocnfusingPreOy much everything. This prelecture sort of went over my head. I'll
definitely have to watch it again. The concept of posiFve and negaFve work is very confusing. please
explainUh oh. Hotdog.
Mechanics Lecture 7, Slide 2
I hope you have enough funny quotes to fit into your slides.
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The Dot Product
Mechanics Lecture 7, Slide 3
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~A =A
x
ı + A
y
| + A
z
k
~B =B
x
ı + B
y
| + B
z
k
ı · ı =1| · | =1
k · k =1
ı · | =0
| · k =0
k · | =0
Dot Product using Unit Vectors
TextTextetc.
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~A · ~B =(A
x
ı + A
y
| + A
z
k) · (Bx
ı + B
y
| + B
z
k)
=(Ax
B
x
ı · ı + A
x
B
y
ı · | + · · · + A
z
B
y
k · j + A
z
B
z
k · k)=(A
x
B
x
⇥ 1 + A
x
B
y
⇥ 0 + · · · + A
z
B
y
⇥ 0 + A
z
B
z
⇥ 1)~A · ~B =(A
x
B
x
+ A
y
B
y
+ A
z
B
z
)
Dot Product in Rectangular Coordinates
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~A · ~B =(A
x
B
x
+ A
y
B
y
+ A
z
B
z
)
=|~A||~B| cos ✓
✓ = arccos
0BBBB@~A · ~B|~A||~B|
1CCCCA
Finding the angle between vectorsIf we know the xyz components of two vectors we can find the angle between them:
therefore
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|⇥A| =|⇥B| = 5
⇥A · ⇥B =3 · 4 + 4 · 3 = 24
� = arccos
0BBBB@⇥A · ⇥B|⇥A||⇥B|
1CCCCA
� = arccos
24
25
!= arccos 0.96
=0.28 rad = 16
�
~A = 3ı + 4 |~B = 4ı + 3 |
Example
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Work-Kinetic Energy TheoremThe work done by the net force F as it acts on an object that moves between posiRons r1 and r2 is equal to the change in the object’s kineRc energy:
Mechanics Lecture 7, Slide 4
W =
~r2Z
~r1
~F · d~l
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W =
~r2Z
~r1
~F · d~l = ~F · ~d0BBBBBBBBB@
~r2Z
~r1
d~l = ~d
1CCCCCCCCCA
Work-Kinetic Energy Theorem: 1-D Example
If the force is constant and the direcRons aren’t changing then this is very simple to evaluate:
Mechanics Lecture 7, Slide 5
In this case since cos(0)=1
This is probably what you remember from High School.(The nota+on may be confusing though.)
F d
= Fd
car
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Clicker Question
A lighter car and a heavier van, each iniRally at rest, are pushed with the same constant force F. AUer both vehicles travel a distance d, which of the following statements is true? (Ignore fricRon)
Mechanics Lecture 7, Slide 6
A) They will have the same velocityB) They will have the same kine+c energyC) They will have the same momentum
F d
F d
car
van
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~r2Z
~r1
~F · d~l = �K
A force pushing over some distancewill change the kineRc energy.
Mechanics Lecture 7, Slide 7
Concept – very important
DerivaRon – not so important
θ
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Work done by gravity near the Earth’s surface
Mechanics Lecture 7, Slide 8
mgpat
h
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= m~g · d~l1 + m~g · d~l1 + · · · + m~g · d~lN
mg
dl1dy1
dx1
mg
dl1
dl2
dlN
Work done by gravity near the Earth’s surface
Mechanics Lecture 7, Slide 9
2
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mg
dl1
dl2
dlN
Work done by gravity near the Earth’s surface
Mechanics Lecture 7, Slide 10
Δy
= m~g · d~l1 + m~g · d~l1 + · · · + m~g · d~lN
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Work-Kinetic Energy Theorem
If there are several forces acRng then W is the work done by the net (total) force:
Mechanics Lecture 7, Slide 12
You can just add up the work done by each force
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H
Free Fall Fric+onless incline String
CheckPoint
Three objects having the same mass begin at the same height, and all move down the same verRcal distance H. One falls straight down, one slides down a fricRonless inclined plane, and one swings on the end of a string.
Mechanics Lecture 7, Slide 13
In which case does the object have the biggest net work done on it by all forces during its mo+on?
A) Free Fall B) Incline C) String D) All the same
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vp
Clicker Question
Three objects having the same mass begin at the same height, and all move down the same verRcal distance H. One falls straight down, one slides down a fricRonless inclined plane, and one swings on the end of a string. What is the relaRonship between their speeds when they reach the bo[om?
H
Free Fall Fric+onless incline Pendulum
A) vf > vi > vp B) vf > vp > vi C) vf = vp = vi
Mechanics Lecture 7, Slide 14
v f vi
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CheckPoint / Clicker Question
Only gravity will do work: Wg = Δ K
H
Free Fall Fric+onless incline String
A) vf > vi > vp B) vf > vp > vi C) vf = vp = vi
Wg = mgH
Δ K = 1/2 mv22
Mechanics Lecture 7, Slide 15
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CheckPoint
A car drives up a hill with constant speed. Which statement best describes the total work WTOT done on the car by all forces as it moves up the hill?
Less than 50% got this right…
A) WTOT = 0
B) WTOT > 0
C) WTOT < 0
v
Mechanics Lecture 7, Slide 16
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CheckPoint
A box sits on the horizontal bed of a moving truck. StaRc fricRon between the box and the truck keeps the box from sliding around as the truck drives.
µS
a
The work done on the box by the staRc fricRonal force as the truck moves a distance D is:
A) PosiRve B) NegaRve C) Zero
About 60% got this right…
Mechanics Lecture 7, Slide 21
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Physics 211 Lecture 7, Slide 22
From Before
A box sits on the horizontal bed of a moving truck. StaFc fricFon between the box and the truck keeps the box from sliding around as the truck drives.
If the truck moves with constant acceleraFng to the leR as shown, which of the following diagrams best describes the staFc fricFonal force acFng on the box:
µS
a
A B C
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CheckPoint
Physics 211 Lecture 7, Slide 23
The work done on the box by the staRc fricRonal force as the truck moves a distance D is:
A) PosiRve B) NegaRve C) Zero
D
A) because the direc+on of the sta+c fric+onal force and the direc+on the box travels are all same.
B) Since the fric+on force always has opposite direc+on from the movement direc+on, the work done is nega+ve
C) Fric+on keeps the box from sliding, thus D=0, and work done is 0.
µS
a
F
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Physics 211 Lecture 7, Slide 24
Work done by a Spring
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Physics 211 Lecture 7, Slide 25
I am confused about the posi+ve work and nega+ve work and also the posi+ve and nega+ve forces for the spring problems.
In this example the spring does –ve work since F and Δx are in opposite direc+on. The axes don’t maber.
Use the formula to get the magnitude of the work
Use a picture to get the sign (look at direc+ons)
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A box a[ached at rest to a spring at its equilibrium length. You now push the box with your hand so that the spring is compressed a distance D, and you hold the box at rest in this new locaRon.
During this moRon, the spring does:
A) PosiRve Work B) NegaRve Work C) Zero work
Mechanics Lecture 7, Slide 26
Clicker Question
D
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A box a[ached at rest to a spring at its equilibrium length. You now push the box with your hand so that the spring is compressed a distance D, and you hold the box at rest in this new locaRon.
During this moRon, your hand does:
A) PosiRve Work B) NegaRve Work C) Zero work
Clicker Question
Mechanics Lecture 7, Slide 27
D
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A box a[ached at rest to a spring at its equilibrium length. You now push the box with your hand so that the spring is compressed a distance D, and you hold the box at rest in this new locaRon.
During this moRon, the total work done on the box is:
A) PosiRve B) NegaRve C) Zero
Clicker Question
Mechanics Lecture 7, Slide 28
D
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= GMem
1r2� 1
r1
!
Mechanics Lecture 7, Slide 29
W =
~r2Z
~r1
~F(~r) · d~r = �r2Z
r1
GMemr2 dr
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W = GMem
1r2� 1
r1
!A) Case 1 B) Case 2 C) They are the same
In Case 1 we send an object from the surface of the earth to a height above the earth surface equal to one earth radius.
In Case 2 we start the same object a height of one earth radius above the surface of the earth and we send it infinitely far away.
In which case is the magnitude of the work done by the Earth’s gravity on the object biggest?
Clicker Question
Case 1 Case 2
Mechanics Lecture 7, Slide 30
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W = GMem
12RE� 1
RE
!= �GMem
2RE
W = GMem
11 �
12RE
!= �GMem
2RE
Case 1 Case 2
Case 1:
2RE
RE
Same!
Clicker Question Solution
Mechanics Lecture 7, Slide 31
Case 2: