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Force and MotionII
61 FRICTION
Learning Objectives
After reading this module, you should be able to . . .
6.01 Distinguish between friction in a static situation and a
kinetic situation.
6.02 Determine direction and magnitude of a frictio
Physics 5300, Theoretical Mechanics Spring 2015
Assignment 3 solutions
Given: Wed, Jan 28,
Due Tue Feb 3
The problems numbers below are from Classical Mechanics, John R. Taylor, University
Science Books (2005).
Problem 1
Solution:
Taylor 7.1
We have
L=T V
Physics 5300, Theoretical Mechanics Spring 2015
Quiz 4
Given: Friday Feb 6
Problem 1 A mass m is suspended from a massless string, the other end of which is
wrapped several times around a horizontal cylinder of radius R and moment of inertia I,
which is f
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Center of Mass and Linear Momentum
91 CENTER OF MASS
Learning Objectives
9.03 For a twodimensional or threedimensional extended object with a uniform distribution of mass, determine the center
of mass by (a) mentally dividing the object
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Potential Energy and
Conservation of Energy
81
POTENTIAL ENERGY
Learning Objectives
After reading this module, you should be able to . . .
8.01 Distinguish a conservative force from a nonconservative
force.
8.02 For a particle moving betw
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Force and MotionI
51 NEWTONS FIRST AND SECOND LAWS
Learning Objectives
After reading this module, you should be able to . . .
5.01 Identify that a force is a vector quantity and thus has
both magnitude and direction and also components.
5
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Kinetic Energy and Work
71 KINETIC ENERGY
Learning Objectives
After reading this module, you should be able to . . .
7.01 Apply the relationship between a particles kinetic
energy, mass, and speed.
7.02 Identify that kinetic energy is a s
CIRCUIT ANALYSIS I Lecture 14 Dr. AbdulKadir 28 JUNE 2004
diL(0+) de(O+)
dt ’ dt
Example: Determine the initial conditions , iL(0'), vc(0'), ic(0+), vL(0‘), CIRCUIT ANALYSIS I Lecture 14 Dr. Abdul—Kadir 28 JUNE 2004
Q The zero input response (Natur
CIRCUIT ANALYSIS I Lecture 13 Dr. AbdulKadir 27 JUNE 2004
HW#5:6.13, 6.20, 6.32, 6.48, 6.53, 6.61.
9 Important Circuit Concepts:
Inductance:
4/ L2 V
WWW—o 4: 2 4/744
(V; 4/; > 7 Z
if : A, (.2
re 7 4 +41
Capacitance: Lac] CC C 6
Example: The initia
CIRCUIT ANALYSIS I
HW#4:5.20,5 33,539,547.
@ Capacitors:
Lecture 12 Dr. AbdulKadir
6: (0):0/4
26 JUNE 2004
m g/4,;m/M¢ £4
’1/ c '= 0A
§V
Example: Find the voltage across,1F capacitor,2—F capacitor,3—F capacitor.
2—r=
l_
HH
AIL
C/cX
'F
Open [from CIRCU
(0402202): Circuit Analysis I
Chapter 3:
Methods of Analysis
Dr. Yomna Omran
Faculty of Engineering
Electrical and Computer Engineering Department
1
Methods of Analysis  Chapter 3
3.1
3.2
3.3
3.4
3.5
3.6
3.7
Motivation
Nodal analysis.
Nodal analysis with
(0402202): Circuit Analysis I
Chapter 5:
Operational Amplifier
1
Operational Amplifier  Chapter 5
5.1
5.2
5.3
5.4
5.5
What is an Op Amp?
Ideal Op Amp
Configuration of Op Amp
Cascaded Op Amp
Application
Digitalto Analog Converter
Circuit Analysis I
2
5.
(0402202): Circuit Analysis I
Chapter 6:
Capacitors and Inductors
Dr. Yomna Omran
Faculty of Engineering
Electrical and Computer Engineering Department
1
Capacitors and Inductors
Chapter 6
6.1 Capacitors
6.2 Series and Parallel Capacitors
6.3 Inductors
6.
.
.
.
CIRCillT ANALYSIS I
Lecture1
Dr. AbdulKadir
6 JUNE 2004
CHAPTER 1
Basic Concepts
.
Electriccircuit or network:
A collectionof electricaldevices
(Voltageandcurrentsources,
Resistors.etc),that
interconnected same
in
manner.
@ Analysis:
Analysisis the
(0402202): Circuit Analysis I
Chapter 1:
Basic Concepts
Dr. Yomna Omran
Faculty of Engineering
Electrical and Computer Engineering Department
1
Basic Concepts
Objectives and outlines:
1.1
1.2
1.3
1.4
1.5
1.6
Systems of Units.
Electric Charge.
Current.
Vol
!

.,
CIRCUIT ANALYSIS I
Lecture3
Dr. AbdulKadir
8 JUNE2004
@ Series
Resistance VoltageDivision:
and
~ R,
.;/)/~
I
~.~~
t
V;
R2
C/CU/C
~ We saythattwo elements connected seriesif they havea common
are
in
nodeconnecting
themandno otherelements conne
!
.
f
';

.
CIRCmT ANALYSIS I
Lecture4
Dr. AbdulKadir
12JUNE2004
@ WYEDELTATransformation:
L
C
ijj
:,
A")Y
Eachresistorin the Y networkis the productof theresistors the two
in
adjacentA branches
divideqby the sumof thethree A resistors.
~ =
RbRc.
Ra+
(0402202): Circuit Analysis I
Chapter 3:
Methods of Analysis
Dr. Yomna Omran
Faculty of Engineering
Electrical and Computer Engineering Department
1
Methods of Analysis  Chapter 3
3.1
3.2
3.3
3.4
3.5
3.6
3.7
Motivation
Nodal analysis.
Nodal analysis with