Live lecture recordings
ECE 480 SP/SUM 2024
· Lecture
of May 8, 2024 (Review of continuous-time signals)
· Lect.
of May 13, 2024(Intro. to discrete-time signals)
· Lect.
of May 15, 2024(Periodic and sinusoidal discrete-time signals)
ECE 480 Winter
· Lecture
of Jan 23, 2024 (Periodic and sinusoidal sequences)
· Lect.
of Feb 1, 2024 (Intro. to difference equations for FIR and IIR filters)
·
Lect. of Feb.
22, 2024 (Review of Test #1(before test)with Q&A
· Lect. of
March7, 2024(Properties of the z-transform)
· Lect. of
March 14, 2024 (Inverse z-transform of rational functions ofz)
· Lect. of
March 26, 2024 (Design of first order digital allpass filter)
· Lect. of
March 28, 2024(Review for test #2and Q&A)
· Lect. of
April 18, 2024 (Spectral analysis problems)
· Lect. of
April 23, 2024(Final Exam Review with Q&A)
ECE 480 Fall 2023
· Lect.
of Sept 20, 2023 (Intro. to LTI discrete-time systems)
·
Lect.
of Sept 25, 2023 (LTI discrete-time system analysis in the time domain)
· Lect.
of Oct 1, 2023 (Review of sampling by Dr. Hadi Osman)
· Lect.
of Oct 7, 2023 (Test #1 review with Q&A: Part #1)
· Lect.
of Nov 15, 2023 (Test #2 review with Q&A)
· Lect.
of Dec 1, 2023 (Discussion of Test #2 Solutions)
ECE 480 SP/SUM semester 2023
·
Lect.
of May 10, 2023 (Sinusoidal & periodic discrete-time signals)
·
Lect. of May
17, 2023 (Preventing aliasing and determining the sampling frequency using
Parseval’s theorem)
·
Lect. of May
24, 2023 (FIR & IIR difference equations and their block
diagrams)
·
Lect. of June
5, 2023 (Properties of the Fourier transform)
·
Lect. of June
7, 2023 (Freq. response of LTI discrete-time systems)
·
Lect. of June
12, 2023 (Simple IIR first order filters)
·
Lect. of June
28, 2023 (Intro. to the z-transform of sequences)
·
Lect. of July
1, 2023 (Review with Q&A: FIR filters and Comb filters)
·
Lect. of July 3, 2023 (Properties of
the z-transform
·
Lect. of July 10, 2023: (Finding the
inverse z-transform of rational functions of z)
·
Lect. of July 12, 2023: (Finding the
inverse z-transform of rational & irrational functions of z)
·
Lect. of July
24, 2024: (z-transform theorems and applications)
·
Lect. of July
26, 2026: (Intro. IIR filter design)
·
Lect. of July
29, 2023 (Intro. to analog filter design used to design IIR digital filters)
·
Lecture
of August 7, 2023 (Design of a system based on IIR digital filters)
·
Lect.
of August 12, 2023 (Design of digital filter examples with Matlab)
·
Lecture
of August 14, 2023 (Final exam review part #1)
·
Lecture
of August 16, 2023 (Final exam review part #2)
·
ECE 480
Winter-semester 2023
·
Lect.
of Jan 26, 2023 (review of continuous-times (analog) filters and approximations)
·
Lect.
of Feb 16, 2023 (Review of Test #1 with Q&A)
·
Lect.
of Feb 23, 2023 (Introduction to the z-transform)
·
Lect.
of March 23, 2023 (Intro. to the design of IIR digital filters)
·
Lect.
of April 11, 2023 (Intro. to spectral analysis using digital signal processing
methods)
·
Lect.
of April 20, 2023 (Final exam review with Q&A)
ECE 480
Fall 2022
·
Lect.
of Aug 29, 2022 (Course intro. & continuous-time signals review part #1)
·
Lect.
of Aug 31, 2022 (continuous-times signals in the freq. domain)
·
Lect.
of Sept. 3, 2022 (Review of the pre-requisite test with Q&A)
·
Lect.
of Oct 14, 2022, by Mr. Hadi Osman (Review with Q&A before test #1)
·
Lect.
of Oct. 17, 2022 (Intro. to the z-transform)
·
Lect.
of Nov 5, 2022 (Test #2 review and preparation with Q&A)
·
Lect.
of Dec 7, 2022 (Spectral analysis of sinusoidal signal)
·
Lect.
of Dec 10, 2022 (Spectral analysis using the Kaiser window)
·
Lect.
of Dec. 14, 2022 (Final exam review with Q&A)
ECE 480
Spring/Summer 2022
·
Lect.
of May 4, 2022 (Course intro. and continuous-time signals review part #1)
·
Lect.
of May 9, 2022 (Continuous-time signals review part #2)
·
Lect.
of May 11, 2022 (Contin. -time signals in the frequency domain)
·
Lect.
of May 16, 2022 (Contin.-time systems review part #1)
·
Lect.
of May 18, 2022 (Contin.-time systems review in the frequency response part #1)
·
Lect.
of May 23, 2022 (Intro. to discrete-time signals /sequences and applied basic
operations).
·
Lect.
of May 25, 2022 (Discrete-time periodic and sinusoidal signals /sequences).
·
Lect.
of June 1, 2022 (Sampling of continuous-time signals and aliasing prevention).
·
Lect.
of June 6, 2022 (Intro. to discrete-time LTI systems)
·
Lect.
of June 8, 2022 (Difference equations of LTI discrete-time systems)
·
Lect.
of June.13, 2022 (Discrete-time signals in the freq. domain)
·
Lect.
of June.15, 2022 (Properties of the Fourier-transform)
·
Lect.
of June 20, 2022 (Freq. response of LTI systems)
·
Lect.
of June 29, 2022 (Intro. to the z-transform & properties)
·
Lect.
of July 6, 2022 (The z-transform
properties: continued)
·
Lect.
of July 9, 2022 (Lab #2 discussion: finding the coefficients of IIR filters
from the I/O data)
·
Lect.
of July 11, 2022 (Finding the ROC from the poles and z-transform
theorems)
·
Lect.
of July 13, 2022 (Finding the inverse z-transform using the partial fractional
method)
·
Lect.
of July 20, 2022 (Finding transient & steady-state responses using the
z-transform)
·
Lect.
of July 25, 2022 (Simple first-order IIR digital filters)
·
Lect.
of July 27, 2022 (Before test #2 review with Q&A)
·
Lect.
of Aug 3, 2022 (Intro. to the design of IIR digital filters using the bilinear
transformation)
·
Lect.
of Aug 6, 2022 (Lab #4 discussion: Part #1)
·
Lect.
of August 8, 2022 (Design of IIR filters with the bilinear transformation)
·
Lect.
of Aug 10, 2022 (Design of all-pass digital filters)
·
Lect.
of August 13, 2022 (Lab #4 discussion: Per #2)
·
Lect.
of Aug 15, 2022 (Final exam review with Q&A)
ECE 480 Winter 2022
· Lect.
of Jan 11, 2022 (Course intro. and continuous-time signals review)
· Lect.
of Jan 13, 2022 (review of analog or continuous-time signals in the freq.
domain)
· Lect.
of Jan 18, 2022 (review of continuous-time LTI systems)
· Lect.
of Jan 20, 2022 (Intro. to discrete-time signals /sequences and applied basic
operations).
· Lect.
of Jan 25, 2022 (Aliasing of sinusoidal sequences and sampling of
continuous-time signals)
· Lect.
of Jan 27, 2022 (Sampling of sinusoidal continuous-time signals and aliasing
prevention)
· Lect.
of Feb 1, 2022 (Intro. to discrete-time LTI systems in the time domain)
· Lect.
of Feb. 8, 2022 (Discrete-time signals in the freq. domain)
· Lect.
of Feb. 10, 2022 (Properties of the Fourier transform)
· Lect.
of Feb. 15, 2022 (Frequency response of LTI discrete-time systems)
· Lect.
of Feb. 16, 2022 (Test #1 preparation review with Q&A: part #1)
· Lect.
of Feb. 17, 2022 (Test #1 preparation review with Q&A: part #2)
· Lect.
of Feb. 22, 2022 (Simple first-order IIR digital filter design)
· Lect.
of Feb. 24, 2022 (Simple FIR digital filters)
· Lect.
of March 8, 2022 (A moving average FIR linear phase digital filter)
· Lect.
of March 10, 2022 (Intro. to the z-transform & properties)
·
Lect. of March
15, 2022 (Properties and theorems of the z-transform)
·
Lect. of March
17, 2022 (Propertius of the z-transform continued)
· Lect. March
22, 2022 (Theorems of the z-transform and finding the inverse z-transform)
·
Lect. of March 24, 2022 (Inverse z-trans. of
irrational X(z) and long division methods)
·
Lect. of March
29, 2022 (Intro. to the design of digital filters)
· Lect. of March
31, 2022 (Test #2 review with Q&A)
·
Lect.
of April 5, 2022 (Intro. to the design of digital filters using the bilinear
transformation)
·
Lect.
of April 7, 2022 (Design of IIR filters using the bilinear transformation)
·
Lect.
of April 12, 2022 (Design of IIR filters using the bilinear transformation and
Matlab)
·
Lect.
of April 14, 2022 (Intro. to the spectral analysis of simple signals)
·
Lect.
of April 15, 2022 (Discussing Test #2 solutions with Q&A)
·
Lect.
of April 19, 2022 (Spectral analysis of simple sinusoidal signals)
·
Lect.
of April 21, 2022 (Spectral analysis of sinusoidal signals using the Kaiser
window)
· Lect. of April 22, 2022 (Answering questions before the final exam)
ECE 480 Fall 2021
·
Lect.
of Sept. 1, 2021 (Intro. and review of continuous-time signals)
·
Lect.
of Sept. 8, 2021 (Continuous-time signals in the frequency domain)
·
Lect.
of Sept. 13, 2021 (Intro. to discrete-time signals)
·
Lect.
of Sept. 15, 2021 (Aliasing and the sampling of continuous-time signals)
·
Lect. of Sept. 20, 2021 (How
to avoid aliasing by band-limiting the continuous-time signal)
·
Lect. of Sept. 22, 2021 (Intro.
to LTI (Linear time-invariant) discrete-time systems)
·
Lect.
of Sept. 29, 2021(LTI systems in the time domain: continued)
·
Lect.
Oct. 4, 2021 (Discrete-time signal in the freq. domain: the Fourier transform)
·
Lect.
Oct. 6, 2021 (Properties of the Fourier transform: Part #1)
·
Lect.
Oct. 11, 2021 (Properties of the Fourier transform: Part #2)
·
Lect.
of Oct. 13, 2021 (Test #1 review with Q&A)
·
Lect.
of Oct. 18, 2021 (The frequency response of LTI discrete-time systems and
simple filters)
·
Lect.
of Oct. 20, 2021 (Simple IIR digital filter: first-order LP, HP, and all pass
filters)
·
Lect.
of Oct. 25, 2021 (Intro. to the z-transform)
·
Lect.
of Oct. 27, 2021 (Properties of the z-transform)
·
Lect.
of Nov. 1, 2021, (Properties and theorems of the z-transform (continued)
·
Lect.
of Nov. 3, 2021 (Finding the inverse z-transform)
·
Lect.
of Nov. 10, 2021 (Inverse z-transform of
irrational functions of z and using long division)
·
Lect.
of Nov. 17, 2021 (Test #2 review with Q&A)
·
Lect.
of Nov. 29, 2021 (Intro. to IIR digital filters)
·
Lect.
of Dec. 1, 2021 (Design of IIR digital filter using the bilinear transformation
with Matlab)
· Lect. of Dec. 6, 2021 (Design for Notch and allpass IIR filters)
·
Lect.
of Dec. 8, 2021 (Design of first-order all-pass IIR filters)
·
Lect.
of Dec. 9, 2021(Final exam review part #1)
·
Lect.
of Dec. 13, 2021(Final exam review part #2)
ECE 480 Sp/Sum 2021
· Lecture
of May 5, 2021 (Intro. & signals review)
· Lect.
of May 10, 2021 (Contin.-time signals in the freq. domain)
· Lect.
of May 12, 2021 (review of LTI continuous-time systems)
· Lect.
of May 17, 2021 (Intro. to discrete-time signals)
· Lect.
of May 19, 2021 (Aliasing of sinusoids and the sampling of continuous-time
signals)
· Lect.
of May 24, 2021 (sampling of analog sinusoidal signal & aliasing)
· Lect.
of May 26, 2021 (Intro. to LTI discrete-time system)
· Lect.
of June 2, 2021 (LTI system in the time-domain & difference equations)
· Lect.
of June 7, 2021 (Diff. equations of FIR & IIR digital filters)
· Lect.
of June 9, 2021, (Discrete-time signals in the frequency domain)
· Lect.
of June 14, 2021 (The Fourier transform and its properties)
· Lect.
of June 16, 2021 (Before test #1 review with Q&A)
· Lect.
of June 21, 2021 (Intro. to the freq. response of LTI discrete-time systems)
· Lect.
of Jun2 30, 2021 (Intro. to the z-transform)
· Lect.
of July 7, 2021 (The z-transform & the ROC)
· Lect.
of July 12, 2021 (Properties of the z-transform )
· Lect.
of July 14, 2021 (More properties of the z-transform & theorems)
· Lect.
of July 19, 2021 (Finding the inverse z-transform given X(z) and the ROC)
· Lect.
of July 28, 2021 (Design of IIR digital filters)
· Lect.
of August 9, 2021 (Using Matlab to design IIR filters)
· Lect.
of August 11, 2021 (Intro. the spectral analysis of signals)
· Lect.
of August 16, 2021 (Spectral analysis of sinusoidal signals using the Kaiser
window method)
· Lect.
of Aug 18, 2021 (Final exam review with Q&A)
ECE 480 Winter 2021
· Lecture
of Jan 14, 2021 (Intro. & signals review)
· Lecture
of Jan 19, 2021 (Fourier series & Transform review)
· Lect.
of Jan 21, 2021 (Intro. to discrete-time signals and sequences)
· Lect.
of Jan 28, 2021 (Sampling of continuous-time signals and aliasing avoidance,
Part-1)
· Lect.
of Feb 2, 2021 (Sampling of continuous-time signals and aliasing avoidance,
Part-2)
· Lect.
of Feb 4, 2021 (LTI discrete-time
systems in the time domain: Part#1)
· Lect.
of Feb. 9, 2021 (LTI in the time-domain: Part #2)
· Lect.
of Feb. 11, 2021 (The Fourier
transform of discrete-time signals)
· Lect.
of Feb. 16, 2021 (properties of the
FT and Parseval’s theorem)
· Lect.
of Feb.18, 2021 (Freq. response of discrete-time systems)
· Lect.
of Feb. 21, 2021 (Review with Q&A for Mid-term test #1)
· Lect.
of Feb. 23, 2021 (Review with Q&A for Mid-term test #2)
· Lect.
of Feb. 28, 2021 (Q&A for test #1)
· Lect.
of March 4, 2021 (Intro to the z-transform)
· Lect.
of March 9, 2021 (Properties of the z-transform and examples)
· Lect.
of March 11, 2021 (Properties of the z-transform (continued))
· Lect.
of March 16, 2021 (Z-transform theorems)
· Lect.
of March 18, 2021 (finding the inverse z-transform of rational functions of z)
· Lect.
of March 20, 2021 (Review of test #1 with Matlab simulations)
· Lect.
of March 23, 22021 (Applying the z-transform to solve LTI systems)
· Lect.
of March 25, 2021 (Review of the z-transform with Q&A)
· Lecture
of March 30, 2021 (Intro. to IIR digital filter design)
· Lect.
of April 8, 2021 (Using Matlab to design IIR digital filters)
· Lect.
of April 13, 2021 (Intro. to the spectral analysis of signals)
· Lect.
of April 15, 2021 (Spectral analysis of sinusoidal discrete-time signals)
· Lect.
of April 20, 2021 (Spectral analysis of
sinusoidal signals using the Kaiser window)
· Solved example of a Continuous-time Periodic signal
using the Kaiser window
· Lect.
of April 22, 2021 (Final exam. Review with Q&A)
ECE 480 Fall 2020
· Lecture
of September 2, 2020
· Lecture
of September 9, 2020
· Lecture
of Oct 21, 2020 (Q&Afor test#1 Part #1)
· Lecture
of Oct 21, 2020 (Q&A for test#1 part#2)
· Lect
of Oct 28, 2020 (Z-transfer review
Part#1)
· Lect
of Nov 2, 2020 (Z-transfer review
Part#2)
· Lect
of Nov 4, 2020 (Z-transfer review
Part#3)
· Lecture
of Nov 9, 2020 (Design of 1st order IIR Filters)
· Lecture
of Nov 11, 2020 (Design of 2nd order IIR Filters)
· Lecture
of Nov 16, 2020 (Design of IIR filters)
· Lecture
of Nov 18, 2020 (Review for test 2)
· Lect.
of Nov 30, 20, (Design of IIR with Matlab)
· Lect.
Of Dec 2, 20 (allpass digital filter design)
· Lect.
of Dec 5, 20 (Design of IIR BPF & Notch)
· Lect
. of Dec. 7, 20 Part#1 (1st order all pas & FIR comb filter
design)
· Lect.
Of Dec. 7 Part #2 (all pass first order video)
· Lect.
Of Dec. 9, 20 (Design of FIR comb filters)
· Lect.
Of Dec. 14, 2020 (Final exam review )
ECE 480 Spring/Summer 2020
· Lectures of May 11, 2020
(a)
Review
of analog LTI systems
(b)
Intro.
To discrete-time signals
· Lectures of May 13, 2020
·
Sinusoidal
sequences and properties
·
Average
power of sinusoidal sequences
·
Basic
operations applied to sequences
· Lectures of May 18, 2020
(a)
Sampling
of continuous-time signals
(b)
Sampling of sinusoidal signals
· Lecture
of May 24, 2020 (Lab_1, Q&A)
· Makeup lectures for May 27, 2020
·
A
Previously recorded lecture
· Parseval’s theorem and convolution in the freq. domain
·
Lectures for
the week of 6/15/2020
·
Properties
of the z-transform
· Lecture of June 16, 2020 (test_1 review #1)
· Lecture of June 19, 2020 (test_1 review # 2)
· Lecture of July 7, 2020
· Lecture #2 (Recorded previously)
·
LECTURE #1
(05-05-2014) LECTURE #2
(05-07-2014) LECTURE #3
(05-12-2014)
·
LECTURE #4
(05-14-2014) LECTURE # 5
(05-19-2014) LECTURE # 6
(05-21-2014)
·
LECTURE # 7
(05-28-2014) LECTURE LECTURE #9
(06-04-2014)
·
LECTURE # 10
(06-09-2014) LECTURE
#11 (06-11-2014) LECTURE
#12 (06-16-2014)
·
LECTURE #14
(06-23-2014) LECTURE #15
(06-30-2014)
·
LECTURE
#16 (07-07-2014) LECTURE
#17 (07-09-2014) LECTURE
#18 (07-14-2014)
·
LECTURE
# 19 (07-16-2014) LECTURE
#20 (07-21-2014) LECTURE
#21 (07-23-2014)
·
LECTURE
#22 (07-28-2014) LECTURE
#23 (07-30-2014)
·
LECTURE
#1 (01-14-2014) LECTURE
#2 (01-16-2014) LECTURE
#3 (01-21-2014)
·
LECTURE
#4 (01-23-2014) LECTURE
#5 (01-30-2014) LECTURE
#6 (02-04-2014)
·
LECTURE
#7 (02-06-2014) LECTURE
#8 (02-07-2014) LECTURE
#9 (02-11-2014)
·
LECTURE
# 10 (02-12-2014 LECTURE
#11 (02-18-2014) LECTURE
#12 (02-20-2014)
·
TEST
#1 REVIEW (2/20/14) LECTURE
#13 (03-04-2014) LECTURE
#14 (03-06-2014)
·
LECTURE
# 15 (3-11-2014) LECTURE
# 16 (03-13-2014) LECTURE
# 17 (03-18-2014)
·
LECTURE
# 18 (3-25-2014) LECTURE
# 19 (03-27-2014) LECTURE
#20 (04-01-2014)
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LECTURE
#21 (04-03-2014) LECTURE
# 22 (04-08-2014) LECTURE
# 23 (04-10-2014)
·
LECTURE
#24 (04-15-2014) LECTURE
#25 (04-17-2014) LECTURE
# 26 (04-18-2014)
·
LECTURE#1
(5-8-2013) LECTURE#2
(5-13-2013) LECTURE#3
(5-15-2013)
·
LECTURE#4
(5-20-2013) LECTURE#5
(5-22-2013) LECTURE#6
(5-29-2013)
·
LECTURE#7
(6-3-2013) LECTURE#8
(6-5-2013) LECTURE#9
(6-10-2013)
·
LECTURE#10
(6-12-2013) LECTURE#11
(6-17-2013) LECTURE#12
(6-19-2013)
·
LECTURE#13
(6-24-2013) LECTURE#14
(7-1-2013) LECTURE#15
(7-8-2013)
·
LECTURE#16
(7-10-2013) LECTURE#17
(7-29-2013) LECTURE#18
(7-31-2013)
·
Week1_a
(1-14-2013) Week1_b
(1-16-2013) Week2_a
(1-23-2013)
·
Week2_b
(1-28-2013) Week3_a
(1-30-2013) Week3_b
(2-4-2013)
·
Week4_a
(2-6-2013) Week4-b
(2-8-2013) Week5_a
(2-11-2013)
·
Week5_b
(2-13-2013) Week6_a
(2-18-2013) Week6-b
(3-4-2013)
·
Week7-a
(3-6-2013) Week7-b
(3-11-2013) Week8-a
(3-13-2013)
·
Week8-b
(3-18-2013) Week9-a
(3-20-2013) Week9-b
(3-25-2013)
·
Week10-a
(3-27-2013) Week10-b
(4-1-2013) Week11-a
(4-3-2013)
·
Week11-b
(4-5-2013) Week12-a
(4-8-2013) Week12-b
(4-10-2013)
·
Week13-a
(4-15-2013) Week13-b
(4-17-2013)
·
Week1_a
(9-7-2012) Week1-b
(9-10-2012) Week2-a
(9-12-2012)
·
Week2-b
(9-17-2012) Week3-a
(9-19-2012) Week3-b
(9-24-2012)
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Week4-a
(9-26-2012) Week4-b
(10-1-2012) Week5-a
(10-3-2012)
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Week5-b
(10-8-2012) Week6-a
(10-10-2012) Week6-b
(10-19-2012)
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Week7-a
(10-22-2012) Week7-b
(10-24-2012) Week8-a
(10-29-2012)
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Week8-b
(10-31-2012) Week9-a
(11-7-2012) Week9-b
(11-12-2012)
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Week10-a
(11-14-2012) Week10-b
(11-19-2012) Week11-a
(11-21-2012)
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Week11-b
(11-26-2012) Week
12-a (11-28-2012) Week12-b
(11-30-2012)
·
Week13-a
(12-3-2012) Week
13-b (12-5-2012) Week14-a
(final exam. Review)
·
Week14-b
(12-10-2012) Final review (Conti.)
·
Week1_a
(5-7-2012) Week1_b
(5-9-2012) Week2_a
(5-14-2012)
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Week2_b
(5-16-2012) Week3_a
(5-21-2012) Week3_b
(4-23-2012)
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Week4_a
(5-30-2012) Wee4_b
(6-4-2012) Week5_a
(6-6-2012)
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Week5_b
(6-13-2012) Week6_a
(6-18-2012) Week6_b
(6-20-2012)
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Week7_a
(6-25-2012) Week7_b
(7-2-2012) Week8_a
(7-9-2012)
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Week8_b
(7-16-2012) Week9_a
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(7-23-2012)
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Week10_a
(7-25-2012) Week10_b
(7-30-2012)
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Week2_a
(1-18-2012) Week2_b
(1-23-2012) Week3_a
(1-25-2012)
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Week3_b
(1-30-2012) Week4_a
(2-1-2012) Week4_b
(2-6-2012)
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Week5_a
(2-8-2012) Week_5_b
(2-13-2012) Week6_a
(2-15-2012)
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Week6_b
(2-20-2012) Week7_a
(2-22-2012) Week7_b(
3-07-2012)
·
Week8_a
(3-12-2012) Week8_b
(3-14-2012) Week9_a
(3-19-2012)
·
Week10_a
(3-21-2012) Week10_b
(3-26-2012) Week11_a
(3-28-2012)
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Week12_a
(4-2-2012) Week12_b
(4-4-2012) Week13_a
(4-9-2012)
·
Week13_b
(4-11-2012) Week14_a
(4-16-2012) Week
14_b (4-13-2012)
·
Week14_c
(4-18-2012) Week15
(4-23-2012) final review
·
Week1_a
(9-7-2011) Week3_a
(9-21-2011) Week4_a
(9-28-2011)
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Week4_b
(10-3-2011) Week5_a
(10-5-2011) Week5_b
(10-10-2011)
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Week6_a
(10-12-2011) Week6_b(
10-17-2011) Week7_a
(10_19_2011)
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Week7_b
(10-24-2011) Week8_a(
10-26-2011) Week8_b
(10-31-2011)
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Week9_a
(11-2-2011) Week9_b
(11-7-2011) Week10_a
(11-9-2011)
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Week10_b
(11-16-2011) Week11_a
(11_21_2011) Week11_b
(11-23-2011)
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Week12_a
(11-28_2011) Week12_b
(11-30-2011) Week13_a
(12-5-2011)