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UNIVERSITY OF TEXAS AT AUSTIN
BIOMEDioAL ENGINEERING DEPARTMENT
BME 343, BME Signal and Systems Analysis.
Exam 3 Practice Problems.
1. Determine the Fourier transform of each of the functions shown below. For each function,-your
NAME:_
Discussion Section (Circle One): M
Tu
Wed
Biomedical Linear Systems and Signals
BME 343: Practice Quiz I
September 20, 2016
The exam has a total of 5 questions while the point value of each question is given. The composite
point value of all qu
NAME:_
Biomedical Linear Systems and Signals
BME 343: Practice Final Exam
December 8, 2015
The point totals are not scales so ignore these. For the actual exam you will be provided with each of
the tables provided for each of the three hour exams.
1. (14)
BME 343 Quiz
October 31, 2016
Suppose a signal x(t) = cos(24t) is sampled with a sampling period of
T=0.01 seconds. Complete the following questions:
1. The sampling rate is
A. 1 sample per second
B. 10 samples per second
C. 100 samples per sec
NAME:
Biomedical Linear Systems and Signals
BME 343 Quiz I
September 21, 2016
The exam has a total of 5 questions while the point value of each question is given. The composite
point value of all questions on the exam 100 points. To be eligible for part
Elena Gomez-Jareno, EDG563
Biomedical Linear Systems and Signals (BME 343)
Homework 1
Due Wednesday August 31, 2016 Midnight
For each of the problems below, write your answers in a form involving the numerical
values given. Unless asked, do not use a comp
BME 343: Homework 2
Due Date: Monday, September 30, 2013 at 9:59 AM (BUR 108)
Problem 2.1
A linear, time invariant, continuous system is described by
( D 1)( D 2 5D 6) y (t ) Dx (t )
Determine the characteristic polynomial, characteristic equation, charac
NAME:_
Biomedical Linear Systems and Signals
BME 343 Practice Quiz II
October 24, 2016
The exam has a total of 5 questions while the point value of each question is given. The composite
point value of all questions on the exam 100 points. To be eligible f
Biomedical Linear Systems and Signals (BME 343)
Homework 6
Due Thursday October 13, 2016 Midnight
1. Draw the canonical direct realization of the transfer function defined by,
H ( s )=
s +2
s +2 s+5
2
Using generic op-amp elements including summers/multip
Biomedical Linear Systems and Signals (BME 343)
Homework 4
Due Friday October 2, 2015 Midnight
1. An LTIC system is specified by the equation:
5
1
! + + = + 1
6
6
A. Find the characteristic polynomial, chara
EE438 Exam 1
Prof. Ranjit Gharpurey
Feb. 11, 2014
Exam Time - 70 min
Maximum Grade - 15 pts.
Exam Instructions
The exam is closed book and closed notes. One side of a letter size page may be used
for notes and reference materials.
The use of scientic ca
EE438 Exam 3
Name
Prof. Ranjit Gharpurey
April 15, 2014
Exam Time - 70 min
Maximum Grade - 15 pts.
Exam Instructions
The exam is closed book and closed notes. One side of a letter size page may be used for
notes and reference materials.
The use of scien
EE438 Exam 2
Prof. Ranjit Gharpurey
March 18, 2014
Exam Time - 70 min
Maximum Grade - 15 pts.
Exam Instructions
The exam is closed book and closed notes. One side of a letter size page may be used for
notes and reference materials.
The use of scientific
Biomedical Linear Systems and Signals (BME 343)
Homework 9
Due Thursday November 18, 2016 Midnight
1. Find the general solution (zero-input and zero-state) for the following linear recursive difference equation:
y
Biomedical Linear Systems and Signals (BME 343)
Homework 3
Due Wednesday September 14, 2016 Midnight
1. For the system depicted below, find a differential equation relating the current
through the resistive elemen