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### sp01-lw-e1

Course: ECE 2030, Fall 2008
School: Georgia Tech
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Word Count: 479

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2030 ECE C 4 problems, 5 pages Computer Engineering Exam One Spring 2001 8 February 2001 Instructions: This is a closed book, closed note exam. Calculators are not permitted. If you have a question, raise your hand and I will come to you. Please work the exam in pencil and do not separate the pages of the exam. For maximum credit, show your work. Good Luck! Your Name (please print)...

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2030 ECE C 4 problems, 5 pages Computer Engineering Exam One Spring 2001 8 February 2001 Instructions: This is a closed book, closed note exam. Calculators are not permitted. If you have a question, raise your hand and I will come to you. Please work the exam in pencil and do not separate the pages of the exam. For maximum credit, show your work. Good Luck! Your Name (please print) ________________________________________________ 1 25 2 15 3 30 4 30 total 100 1 ECE 2030 C 4 problems, 5 pages Problem 1 (2 parts, 25 points) Computer Engineering Exam One Spring 2001 8 February 2001 Boolean Algebra and Standard Forms Part A (15 points) For each expression, complete the truth table that represents its behavior. OUTX = A B C + A B C + A B C + A B C A 0 0 0 0 1 1 1 1 B 0 0 1 1 0 0 1 1 C 0 1 0 1 0 1 0 1 OUTX A 0 0 0 0 1 1 1 1 OUTY = ( A + B + C ) ( A + B + C ) OUTZ = A B C B 0 0 1 1 0 0 1 1 C 0 1 0 1 0 1 0 1 OUTY A 0 0 0 0 1 1 1 1 B 0 0 1 1 0 0 1 1 C 0 1 0 1 0 1 0 1 OUTZ Part B (10 Points) Transform each of the following Boolean expressions to a form where they can be implemented using switches (i.e., there should be no bars in the expression except for complements of the inputs A, B, C, etc.). The behavior of the expression should remain unchanged. Out X = A ( B C + ( D + E )) Out Y = (( A + B)+ (C + D) ) E F 2 ECE 2030 C 4 problems, 5 pages Problem 2 (1 part, 15 points) Computer Engineering Exam One Spring 2001 8 February 2001 Incomplete Circuit For the incomplete circuit are shown below. Complete each circuit by adding the needed switching network so the output is pulled high or low for all combinations inputs of (i.e., no floats or shorts). Then write the expression. Assume both the inputs and their compliments are available. OUTx = _____________________________ 3 ECE 2030 C 4 problems, 5 pages Problem 3 (2 parts, 30 points) Computer Engineering Exam One Spring 2001 8 February 2001 Mixed Logic Part A (15 points) Implement the following expression using only NOR gates and inverters. Then determine the number of switches required. Use proper mixed logic notation. Do not modify the expression. Do not assume compliments of inputs are available. OUTx = ( ( A + B ) C)+( D E ( F + G)) number of switches Part B (15 points) Implement the following expression using only 2 and 3 input NAND gates and inverters. Then determine the number of switches required. Use proper mixed logic notation. Do not modify the expression. Do not assume compliments of inputs are available. Out = ( A + B) (C D) ( E + F ) number of switches 4 ECE 2030 C 4 problems, 5 pages Problem 4 (2 par...

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Georgia Tech - ECE - 2030
ECE 2030 H 4 problems, 5 pagesComputer Engineering Exam OneSpring 2004 5 February 2004Instructions: This is a closed book, closed note exam. Calculators are not permitted. If you have a question, raise your hand and I will come to you. Please w
Georgia Tech - ECE - 2030
ECE 2030 1:00pm 4 problems, 5 pagesComputer Engineering Exam TwoSpring 2001 21 March 2001Instructions: This is a closed book, closed note exam. Calculators are not permitted. If you have a question, raise your hand and I will come to you. Pleas
Georgia Tech - ECE - 2030
ECE 2030B 10:00am 4 problems, 5 pagesComputer Engineering Exam TwoFall 2003 22 October 2003Instructions: This is a closed book, closed note exam. Calculators are not permitted. If you have a question, raise your hand and I will come to you. Ple
Georgia Tech - ECE - 2030
ECE 2030 4 problems, 3 pages Problem 1 (3 parts, 30 points)Computer Engineering Exam One SolutionsFall 1999 17 September 1999 Incomplete CircuitsSeveral incomplete circuits are shown below. Complete each circuit by adding the needed switching n
Georgia Tech - ECE - 2030
Cmpe 2030 AIntroduction to Computer Engineering Quiz -II - Solutions May 7th , 19991. Implement a synchronous binary counter that counts to ten. Use the minimum number of a basic toggle cell shown below. In addition you have at your all of the bas
Georgia Tech - PHYSICS - 2211
10.47. Model: Assume an ideal spring that obeys Hookes law. There is no friction, and thus the mechanical energy K + Us + Ug is conserved. Visualize:We place the origin of our coordinate system at the springs compressed position y1 = 0. The rock le
Georgia Tech - PHYSICS - 2211
2.78. Model: Jill and the grocery cart will be treated as particles that move according to the constantacceleration kinematic equations. Visualize:Solve:The final position of Jill when the cart is caught is given byx J1 = x J0 + vJ0 (t J1 - t J
Georgia Tech - PHYSICS - 2211
2.39.Solve:The position is the integral of the velocity.x1 = x 0 + v x dt = x 0 + kt 2 dt = x 0 + 1 kt 3 3t0 0t1t1t1 0= x 0 + 1 kt13 3We're given that x0 = 9.0 m and that the particle is at x1 = 9.0 m at t1 = 3.0 s. Thus9.0 m = (
Georgia Tech - PHYSICS - 2211
11.53. Model: Assume an ideal spring, so Hookes law is obeyed. Treat the box as a particle and apply theenergy conservation law. Box, spring, and the ground make our system, and we also use the model of kinetic friction. Visualize: We place the orig
Georgia Tech - PHYSICS - 2211
6.8. Model: Assume the particle model for the ball, and apply the constant-acceleration kinematic equations ofmotion in a plane. Visualize:r (a) We know the velocity v1 = ( 2.0i + 2.0 j ) m/s at t = 1 s. The ball is at its highest point at t = 2
Georgia Tech - PHYSICS - 2211
7.56. Model: Assume the particle model for a ball in vertical circular motion.Visualize:Solve:(a) Newtons second law in the r- and t-directions is( Fnet )r = T + mg cos = mar =Substituting into the r-component,mvt2 r( Fnet )t = mg sin =
Georgia Tech - PHYSICS - 2211
4.4. Model: Assume friction is negligible compared to other forces.Visualize:
Georgia Tech - PHYSICS - 2211
8.40. Model: Use the particle model for the two blocks. Assume a massless rope, and massless, frictionlesspulleys. Visualize:Note that for every meter block 1 moves forward, one meter is provided to block 2. So each rope on m2 has to be lengthened
Georgia Tech - PHYSICS - 2211
10.41. Model: Model the marble and the steel ball as particles. We will assume an elastic collision between themarble and the ball, and apply the conservation of momentum and the conservation of energy equations. We will also assume zero rolling fri
Georgia Tech - PHYSICS - 2211
8.25. Model: Assume package A and package B are particles. Use the model of kinetic friction and theconstant-acceleration kinematic equations. Visualize:Solve: Package B has a smaller coefficient of friction. It will try to overtake package A and
Georgia Tech - PHYSICS - 2211
9.42. Model: We will model the two fragments of the rocket after the explosion as particles. We assume theexplosion separates the two parts in a vertical manner. This is a three-part problem. In the first part, we will use kinematic equations to fin
Georgia Tech - PHYSICS - 2211
8.35. Model: Assume the particle model for m1, m2, and m3, and the model of kinetic friction. Assume the ropesto be massless, and the pulleys to be frictionless and massless. Visualize:Solve:Newtons second law for m1 is T1 w1 = m1a1. Newtons se
Georgia Tech - PHYSICS - 2211
Georgia Tech - PHYSICS - 2211
Georgia Tech - PHYSICS - 2211
1. (10 Points) A 4.0-kg object is constrained to move along the x-axis. At time t = 0 it is has a velocity of 6.0 m/s. After t = 0 a force as shown by the graph acts on the object. What is the speed of the object at time t = 8.0 sec? (a) 4.0 m/s (b)
Georgia Tech - PHYSICS - 2211
If your name does not appear with your PRS#, see me!Class TA: Mauricio Bedoya W,Th 2-4 PM Recitation TA: Ekapop PairamPhysics 2211a (Kulp)Class 5: What is the effect of acceleration?W. D. Kulp william.kulp [at] physics.gatech.edu Office: W501b O
Georgia Tech - ME - 4793
GEORGIA INSTITUTE OF TECHNOLOGY ENG 4793 Composite Materials and Processes Spring 2002MEGA Problem Set The due date for each problem will be assigned in class.Permeability: For advanced carbon fiber composites a satin weave is often used. In such
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Georgia Tech - ME - 4210
GEORGIA INSTITUTE OF TECHNOLOGY George W. Woodruff School of Mechanical EngineeringME 6222 MANUFACTURING PROCESSES AND SYSTEMS Fall 1999Quiz #1: October 13, 1999 Closed book and notes. Write all of your answers in a &quot;blue book&quot;, as only these wil
Georgia Tech - ME - 4210
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Georgia Tech - ME - 4210
GEORGIA INSTITUTE OF TECHNOLOGY George W. Woodruff School of Mechanical Engineering ME 4210 MANUFACTURING PROCESSES AND ENGINEERING Summer 2003Final Examination July 29, 2003Be sure to list all assumptions. Put all your work and answers in the &quot;b
Georgia Tech - ME - 6443
ME6443, Fall 2007, Dr. Ferri Homework Assignment 2 Due Tuesday, Sept 11, 2007 We wish to find the function y(x) that passes through the points (1,0) and (2,1) and which minimizes the integral: I = Problem 1. (2 points) Show that the minimizing soluti
Georgia Tech - ME - 2016
ME2016, Fall 2008, Dr. Ferri Homework Assignment 11 Due Wednesday, November 26.Problem 1 (4 points) Consider the integral I =30sin( x )dx = 1 cos( 3 ) = 1.98999249660045(a) Estimate the value of the integral using trapezoidal integration and
Georgia Tech - ME - 4210
GEORGIA INSTITUTE OF TECHNOLOGY George W. Woodruff School of Mechanical Engineering ME 4210 MANUFACTURING PROCESSES AND ENGINEERING Spring 2005 Quiz #3 April 13 2 pm Be sure to list all assumptions. Put all your work and answers in the &quot;blue book&quot;.
Georgia Tech - ME - 4210
GEORGIA INSTITUTE OF TECHNOLOGY George W. Woodruff School of Mechanical Engineering ME 6222 MANUFACTURING PROCESSES AND SYSTEMS Fall 2008Quiz #1 September 22, 2008 Closed books, notes, and devices that communicate. You may use any type of calc
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GEORGIA INSTITUTE OF TECHNOLOGY George W. Woodruff School of Mechanical Engineering ME 6222 MANUFACTURING PROCESSES AND SYSTEMS Fall 2000 Final Examination: December 14, 2000 Closed book and notes. Write all of your answers in a &quot;blue book&quot;, as only
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Fluids Reviewver. 1ME 6222: Manufacturing Processes and Systems Prof. J.S. Colton1Areas of Interest: Mechanical Engineering Mechanics Thermodynamics Heat Transfer FluidsME 6222: Manufacturing Processes and Systems Prof. J.S. Colton2
Georgia Tech - ISYE - 6201
Practice Problems 2 (2/4)1.It is reasonable to assume that demand over its replenishment lead time of an item is normally distributed with xL = 20 units L = 4.2 units. a. For a desired service level of 0.90, compute the required safety factor, sa
Georgia Tech - ISYE - 3104
3aAssume X ounces are sold, With the machine, total cost of cans: Total cost of cans with supplier option: The X value that equates the costs:240000+X/10*.15 X/12*.20 144,000,000 ounces 57,600,000 ouncesbSimilarly, answer is4anumber 10 80
Georgia Tech - ISYE - 3104
Aggregate PlanningThe Paris Paint Company is in the process of planning labor force requirements and production levels for the next four quarters. The marketing department has provided production with the following forecasts of demand for Paris Pain
Georgia Tech - ISYE - 3104
Homework #3Supply Chain Models: Manufacturing &amp; Warehousing (ISyE 3104) Spring 2002 Due January 31, 2002Total: 55 points During the next 5 months the ShurGlo Company must meet the following demands for pairs of gloves: Month Demand (in pairs) Dece
Georgia Tech - ISYE - 6230
PLANNING THE E-SCRAP REVERSE PRODUCTION SYSTEM UNDER UNCERTAINTY IN THE STATE OF GEORGIA: A CASE STUDYI-Hsuan Hong a, Tiravat Assavapokeea, Jane Ammons a, Chuck Boelkins b, Kennon Gilliama, Devon Oudita, Matthew Realffc, and Juan Martn Vanncolada
Georgia Tech - ISYE - 4231
Investing over TimeWe are going to manage an investment portfolio over a 6-year time horizon. We begin with \$1000, and at various times we can invest in one or more of the following:Savings account X, annual yield 5%. Security Y, 2-year maturity,
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Georgia Tech - MATH - 6338
Georgia Tech - MATH - 6338
Georgia Tech - MATH - 6338
11. RIESZ BASES IN HILBERT SPACES7311. RIESZ BASES IN HILBERT SPACES Let H be a Hilbert space. Recall from Denition 4.13 that a basis {x n } for H is equivalent to a basis {yn } for H if there exists a topological isomorphism S: H H such that Sx
Georgia Tech - MATH - 6338
Georgia Tech - MATH - 6338
MATH 6328EXAM #2March 16, 2007PLEASE READ THESE DIRECTIONS: Answer any TWO problems (12 points each). You may also answer (for up to 3 points extra credit) ONE additional problem. In this case, please specify which problem is the extra credit p
Georgia Tech - CS - 4760
CS4760 Homework 1: Basic Pipelining, Tomasulos Algorithm, Scoreboarding and Dynamic Branch PredictionDue Wednesday, October 23, 1998 in class (12:15pm) (No late homework accepted)For this assignment and for all other homework assignments, you may
Georgia Tech - CS - 6760
GEORGIA INSTITUTE OF TECHNOLOGY College of ComputingCS EE6760 | Parallel Computer Architecture ISpring 1999 CS EE6760 Homework 2 Issued: March 7, 1999 Due: March 14, 1999Purpose: Reading: Problems: Appendix:This homework covers instruction-leve
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Cerebral Cortex July 2006;16:949-959 doi:10.1093/cercor/bhj037 Advance Access publication September 14, 2005Evidence for Separate Perceptual Reactivation and Search Processes during RememberingMark E. Wheeler1, Gordon L. Shulman2, Randy L. Buckne
Georgia Tech - PHYSICS - 2211
Physics 2211 A Summer 2007Quiz #4SolutionsG = 6.673 10-11 Nm2 /kg2 gEarth = 9.8 m/s2 Unless otherwise directed, all springs, cords, and pulleys are ideal, and drag should be neglected. I. (16 points) It is the end of the dog sled race, and a d
Georgia Tech - PHYSICS - 2211
Physics 2211 A Summer 2007Quiz #2SolutionsgEarth = 9.8 m/s2 Unless otherwise directed, all springs, cords, and pulleys are ideal, and drag should be neglected. I. (16 points) Sand moves without slipping at a speed v = 4.0 m/s up a conveyer that
Pittsburgh - ECON - 1200
Repeated Games With the exception of our discussion of bargaining, we have not yet examined the effect of repetition on strategic behavior in games. g played p y, If a game is p y repeatedly, with the same players, the players may behave very diffe
Georgia Tech - IPSTETD - 63
Georgia Tech - ETD - 01082007
Stability and Non-Stationary Characteristics of QueuesA Thesis Presented to The Academic Faculty byBrian H. FralixIn Partial Fulfillment of the Requirements for the Degree Doctor of PhilosophySchool of Industrial and Systems Engineering Georg
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INVESTIGATION OF A MEDIUM WITH A LARGE, NEGATIVE PARAMETER OF NONLINEARITY AND ITS APPLICATION TO THE ENHANCEMENT OF A COMPACT, OMNIDIRECTIONAL, PARAMETRIC SOURCEA Thesis Presented to the Academic Faculty by Alexis DumortierIn partial Fulfillment
Georgia Tech - IPSTETD - 154
The Institute of Paper ChemistryAppleton, WisconsinDoctor's DissertationThe Retention of Fibers from Dilute SuspensionsRichard W. AbramsJune, 1964LOAN COPYTo be returned to EDITORIAL DEPARTMENTTHE RETENTION OF FIBERS FROM DILUTE SUSPENS
Georgia Tech - IPSTETD - 16
The Institute of Paper ChemistryAppleton, WisconsinDoctor's DissertationNucleophilicity of Hydroxide, Hydrosulfide, and Anthrahydroquinone Ions Toward Saturated and Unsaturated Carbon Centers at High TemperaturesGregg Arthur ReedJune, 1988
Pittsburgh - LASA - 98
Paulo Drinot St Antony' College, Oxford University s Anti-Politics Becomes Politics: The 1931 General Strike and the Federacin de Obreros Panaderos Estrella del Per1 ` Prepared for delivery at the 1998 meeting of the Latin American Studies Associatio
Pittsburgh - LASA - 98
The Impact of International Environmental Security on National SovereigntyArthur Oyola-Yemaiel Department of Sociology &amp; Anthropology Florida International University University Park Campus Miami, Florida 33199 (305) 348-2247 FAX (305) 348-3605 e-m
Georgia Tech - ETD - 11172004
AQUEOUS PHASE REACTION KINETICS OF ORGANIC SULFUR COMPOUNDS OF ATMOSPHERIC INTERESTA Dissertation Presented to The Academic FacultyBy Lei Zhu In Partial Fulfillment of the Requirement for the Degree Doctor of Philosophy in the School of Earth and
Georgia Tech - ETD - 08152007
ELASTIC ALGORITHMS FOR REGION-OF-INTEREST VIDEO COMPRESSION, WITH APPLICATION TO MOBILE TELEHEALTHA Dissertation Presented to the Academic FacultybySira P RaoIn Partial Fulfillment Of the Requirements for the Degree Doctor of Philosophy in th
Georgia Tech - ETD - 04072004
Georgia Tech - IPSTETD - 340
The Institute of Paper ChemistryAppleton, WisconsinDoctor's DissertationA Study of Certain Phenomena of the Liquid Exchange of Water-Swollen Cellulose Fibers and Their Subsequent Drying from HydrocarbonsMorris V. MerchantJune, 1957iA STU