Chapter 2. Coulombs Law and Electric Field Intensity
EEE 23 Electromagnetic Fields I
Chapter 2
Vector Analysis
Electrical and Electronics Engineering Institute
University of the Philippines  Diliman
Revision January 2016
Chapter 2. Coulombs Law and Elect
Short exercises
Which of the following is true for a leftsided discretetime
signal?
A. The ROC is outside of a circle and possibly except z = .
B. The ROC is outside of a circle and possibly except z = 0.
C. The ROC is inside of a circle and possibly ex
Mathematics 55
LE3 Thirdie Tips
WFQ  AY1516S2
for some S R. Otherwise, the series is said to be divergent.
SEQUENCES AND SERIES
+
X
I. Sequences
cfw_an +
n=1 = cfw_a1 , a2 , a3 , . . .
an
n=1
1. Convergence. A sequence cfw_an +
n=1 is convergent if and
EEE 35 Signals and Systems
Electrical Electronics Engineering Institute
University of the Philippines  Diliman
Machine Problem 4: DualTone MultiFrequency (DTMF) Decoder using Digital Filters
Description: Design and apply digital filters for DTMF decodi
Rational System Functions,
Onesided zTransform, &
Solution to Difference Equations
EEE 35: DC 4.3
Signals and Systems
2S 2015 2016
DC 4.3: Onesided zTransform, Solution to DEs
EEE 35: Signals and Systems
1
Outline
1. Analysis of LTI systems in the zd
EEE 35: Signals & Systems
Lecture 3D
Convolution and LTI Systems
Electrical and Electronics Engineering Institute EEE 35
Consider the simple circuit:
R1
+
Vi

Electrical and Electronics Engineering Institute EEE 35
+
R2
Vo

simple circuit
By voltage div
Chapter 3. Electric Flux Density, Gauss's Law and Divergence
EEE 23 Electromagnetic Fields I
Chapter 3
Electric Flux Density, Gausss Law,
and Divergence
Electrical and Electronics Engineering Institute
University of the Philippines  Diliman
Revision Janu
PROBLEM SET 04: THE zTRANSFORM
EEE 35: Signals and Systems
Deadline: May 12, 2016, 12:00 NN
INSTRUCTIONS:
Use SHEETS OF BOND PAPER for your answer sheet. Do not forget to write your
COMPLETE NAME, STUDENT NUMBER, and DC SECTION on EACH PAGE.
Read the H
Magnitude and Phase Response of
Systems
EEE 35: DC 3.3
Signals and Systems
DC 3.3: Magnitude and Phase Response of Systems
EEE 35: Signals and Systems
1
SteadyState Sinusoidal Response of
LTI Systems
Suppose we
Experiment 2: Resistance Measurements
Raphael Christian Castro, Danielle Marie Gevaa, Johnel Isaac Manalili
Electrical and Electronics Engineering Institute
University of the Philippines Diliman
Quezon City, Philippines
Abstract This experiment aims to e
MATHEMATICS 54
Sample Fifth Long Exam
Do as indicated. Show complete and clear solution to get full points.
1. Show that
lim
(x,y)(0,0)
9x2 y 2
= 0.
4x2 + y 2
2. Evaluate the following limits.
sin(x2 + y 2 )
(a)
lim
ln
x2 + y 2
(x,y)(0,0)
(b)
lim
(x,y)(0,
Chapter 5
HigherOrder Networks
Artemio P. Magabo
Professor of Electrical Engineering
Electrical and Electronics Engineering Institute
University of the Philippines  Diliman
Revised by Luis G. Sison, Jan, 2004
Revised by Michael Pedrasa, May 2012
Revised
o
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Lvu
r +;t,
:J" cTIc
t(Dv
TsA, RrL,
i+ a)< Pred/_s
c
+
rVr
lIge
cfw_rnA
Iv
lc* Is Ls iA t\oraoe q y
^ile /:
Ic+Is
kcL @
TL
r1ll
a
YhasT
*T+/.b"  \lkloo
fF
ts= %
in,
is
h
L? Tc
9
,to
a/
fhasg
vc Ly
lca4s
fc
=BVR
rR 1A
vR
Qo'
+ cafaacfw_o
V/ l
EEE 31 Problem Set 1
Due:
1. Calculate the equivalent resistance Req of the network shown in Figure 1
below if R1 = 2R2 = 3R3 = 4R4, etc and R11 = 3 .
Figure 1
2. In the Figure 2 below, only the voltage vx is of interest. Simplify the circuit
using the ap
EEE 33 Engg Problem
The circuit in Figure 1 has already reached steadystate when the switch is moved from point A to
point B at t = 0. For t > 0, it can be found that the total time for the said circuit to reach steady state
is 2.5 seconds. This means th