University of Florida - CWR - 4202

Inlets, Gravity Piping Systems, and Storm Sewer DesignChapter 3her. A combination inlet>f a combination inlet forSet the variable you want to solve for by selecting it from the pull-down menuin theSolve For: field. Then, click Solve. The calculated v

University of Florida - BIO - 3200

University of Florida Final Exam Study Guide Spring 2012Be able to explain the following terms with examples where appropriateAdrenarcheMenarcheSpermarcheHaplotypeHLAMHCAGASGALGACentenariansThe Metabolic SyndromeAutoimmune diseasesEndocrine

University of Florida - GEB - 3035

UNIT 1Achieving Business SuccessMcGrawHill/IrwinTheMcGrawHillCompanies,AllRightsReservedUNIT ONE Chapter One Business Driven Technology Chapter Two Identifying Competitive Advantages Chapter Three Strategic Initiatives forImplementing Competitive

University of Florida - GEB - 3035

CHAPTER 2Identifying CompetitiveAdvantagesMcGrawHill/IrwinTheMcGrawHillCompanies,AllRightsReservedLEARNING OUTCOMES2.1Explain why competitive advantages aretypically temporary2.2List and describe each of the five forces inPorters Five Forces Mo

University of Florida - GEB - 3035

CHAPTER 3Strategic Initiatives forImplementing CompetitiveAdvantagesMcGrawHill/IrwinTheMcGrawHillCompanies,AllRightsReservedLEARNING OUTCOMES3.1List and describe the four basiccomponents of supply chainmanagement3.2Explain customer relationshi

University of Florida - GEB - 3035

CHAPTER 4Measuring the Successof Strategic InitiativesMcGrawHill/IrwinTheMcGrawHillCompanies,AllRightsReservedLEARNING OUTCOMES4.1Compare efficiency IT metrics andeffectiveness IT metrics4.2List and describe five common types ofefficiency IT me

University of Florida - GEB - 3035

CHAPTER 5Organizational Structures thatSupport Strategic InitiativesMcGrawHill/IrwinTheMcGrawHillCompanies,AllRightsReservedLEARNING OUTCOMES5.1Compare the responsibilities of a chiefinformation officer (CIO), chief technologyofficer (CTO), chief

University of Florida - GEB - 3035

UNIT TWOExploring BusinessIntelligenceMcGrawHill/IrwinTheMcGrawHillCompanies,AllRightsReservedUNIT TWO Chapter Six Valuing OrganizationalInformation Chapter Seven Storing OrganizationalInformationDatabases Chapter Eight AccessingOrganizational

University of Florida - GEB - 3035

CHAPTER 7Storing OrganizationalInformationDatabasesMcGrawHill/IrwinTheMcGrawHillCompanies,AllRightsReservedLEARNING OUTCOMES7.1 Define the fundamental concepts of therelational database model7.2 Evaluate the advantages of therelational database m

University of Florida - GEB - 3035

CHAPTER 8Accessing OrganizationalInformationDataWarehouseMcGrawHill/IrwinTheMcGrawHillCompanies,AllRightsReservedLEARNING OUTCOMES8.1Describe the roles and purposes of datawarehouses and data marts in anorganization8.2Compare the multidimensio

University of Florida - GEB - 3035

UNIT THREEStreamlining BusinessOperationsMcGrawHill/IrwinTheMcGrawHillCompanies,AllRightsReservedUNIT THREE Chapter Nine Enabling the OrganizationDecision Making Chapter Ten Extending the OrganizationSupply Chain Management Chapter Eleven Buildi

University of Florida - GEB - 3035

CHAPTER 10Extending the OrganizationSupply Chain ManagementMcGrawHill/IrwinTheMcGrawHillCompanies,AllRightsReservedLEARNING OUTCOMES10.1 List and describe the components of a typicalsupply chain10.2 Define the relationship between decisionmaking

University of Florida - GEB - 3035

CHAPTER 11Building a Customer-CentricOrganizationCustomerRelationship ManagementMcGrawHill/IrwinTheMcGrawHillCompanies,AllRightsReservedLEARNING OUTCOMES11.1 Compare operational and analytical customerrelationship management11.2 Identify the prim

University of Florida - GEB - 3035

CHAPTER 12Integrating the Organizationfrom End to EndEnterpriseResource PlanningMcGrawHill/IrwinTheMcGrawHillCompanies,AllRightsReservedLEARNING OUTCOMES12.1Describe the role information plays in enterpriseresource planning systems12.2Identify

University of Florida - GEB - 3035

UNIT FOURBuilding InnovationMcGrawHill/IrwinTheMcGrawHillCompanies,AllRightsReservedUNIT FOUR Chapter Thirteen - Creating InnovativeOrganization Chapter Fourteen - Ebusiness Chapter Fifteen - Creating CollaborativePartnerships Chapter Sixteen -

University of Florida - GEB - 3035

CHAPTER 14EbusinessMcGrawHill/IrwinTheMcGrawHillCompanies,AllRightsReservedLEARNING OUTCOMES14.1 Compare ecommerce and ebusiness14.2 Compare the four types of ebusinessmodels14.3 Describe the benefits and challengesassociated with ebusiness14.4

University of Florida - GEB - 3035

CHAPTER 15Creating CollaborativePartnershipsMcGrawHill/IrwinTheMcGrawHillCompanies,AllRightsReservedLEARNING OUTCOMES15.1 Identify the different ways in whichcompanies collaborate using technology15.2 Compare the different categories ofcollaborat

University of Florida - GEB - 3035

CHAPTER 16Integrating WirelessTechnology in BusinessMcGrawHill/IrwinTheMcGrawHillCompanies,AllRightsReservedLEARNING OUTCOMES16.1 Explain the business benefits of usingwireless technology16.2 Describe the wireless trends that benefitconsumers and

University of Florida - GEB - 3035

UNIT FIVETransformingOrganizationsMcGrawHill/IrwinTheMcGrawHillCompanies,AllRightsReservedUNIT FIVE Chapter Seventeen Building Software toSupport an Agile Organization Chapter Eighteen Managing OrganizationalProjects Chapter Nineteen - Outsourci

University of Florida - GEB - 3035

CHAPTER 18ManagingOrganizational ProjectsMcGrawHill/IrwinTheMcGrawHillCompanies,AllRightsReservedLEARNING OUTCOMES1. Explain the triple constraints and itsimportance in project management2. Describe the fundamentals ofproject management18-2MANA

University of Florida - CGS - 2420

The Linked List (LL)Each node x in a linked list contains:key[x]- The value stored at x.next[x]- Pointer to left child of x.The while list is accessed by a headpointer to the first node.Last one points to NILheadKey(x)next[x]Inserting the elemen

University of Florida - CGS - 2420

Software DesignDeriving a solution whichsatisfies software requirementsIan Sommerville 1995/2000 (Modified by Spiros Mancoridis 1999)Software Engineering, 5th edition. Chapters 10,11Slide 1Stages of DesignProblem understandingLook at the problem f

University of Florida - CGS - 2420

System modelsAbstract descriptions ofsystems whose requirementsare being analysedIan Sommerville 1995/2000 (Modified by Spiros Mancoridis 1999)Software Engineering, 6th edition. Chapter 7Slide 1System modellingSystem modelling helps the analyst to

University of Florida - CGS - 2420

Software PrototypingAnimating and demonstratingsystem requirementsIan Sommerville 1995/2000 (Modified by Spiros Mancoridis 1999)Software Engineering, 6th edition. Chapter 8Slide 1Uses of System PrototypesThe principal use is to help customers andd

University of Florida - CGS - 2531

Chapter 1Managing to Excel1. Effectively converse with managers about what they do and understand what you would do as amanager.2. Describe the general nature of organizations that you may someday manage.An organization is a system of resources struc

University of Florida - CGS - 2531

Chapter 2Decisions, Decisions, Decisons1. Explain what a decision is and what it means to make a decision.A decision is a choice about: a course of action.a strategy of action(classical view)leading to a certain desired objective*A piece of knowled

University of Florida - CGS - 2531

Chapter 3Decision Makers and Processes1. Compare and contrast four major kinds of decision makers that you are likely to encounterin an organization.a. Individual - May be a person (may vary in terms of training, experience, cognitiveskills, intellig

University of Florida - CGS - 2531

Chapter 4Knowledge Matters1. Explain the significance that efficient and effective knowledge management has for decision makingefforts.a. Knowlede pervades the knowledge-management processb. knowledge is the raw material that is made into finished go

University of Florida - CGS - 2531

Chapter 5Decision Support Systems Overview1. Cite the purposes for which decision support systems may exist.a. Improve decision making ability of managers by allowing more or better decisions withinconstraints of cognitive, time and economic limits.b

University of Florida - CGS - 2531

Chapter 6Decision Support Systems Architecture1. Describe the basic architecture of a decision support system.a.b.c.b.Language system (LS)Presentation system (PS)systems of knowledge representationKnowledge System (KS)Problem Processing System

University of Florida - CGS - 2531

Chapter 7Building Decision Support Systems1. Explain the relative advantages and disadvantages of do-it-yourself versus professional development.Needs to AttainUnderstanding of*Problemdomain*End-user-needs-functionality-interfaceHas attainedInf

University of Florida - CGS - 2531

Chapter 8DSS DEVELOPMENT TOOLS1. Distinguish between DSSs and the tools used to build DSSs.Knowledge management techniques can be implemented in many tools and a tool can furnishmultiple knowledge management techniques.(i.e., spreadsheet tools emphas

University of Florida - CGS - 2531

Chapter 9Expression, Text, Hypertext, and Database Management.1. Describe the main features of each of the following knowledge management techniques:a. Expression Management .During decision making, ad hoc calculations such as those done in expression

University of Florida - CGS - 2531

Chapter 10Solver, Spreadsheet,Program and Menu Management1. Describe the main features of each of the following knowledge management techniques:a. Solver Management - an algorithm isprocedural knowledge used to solve a problemPrimarily for procedural

University of Florida - CGS - 2531

Chapter 11Forms, Reports, Graphics, rule, and Message Management1. Describe the main features of each of the following knowledge management techniques:a. Forms management-Concerned with representation of presentation knowledge as a form and theproces

University of Florida - CGS - 2531

CHAPTER 16Organizational Computing for Decision Support1. Offer an organizational perspective that identifies and relates multiple kinds of decision support systemsfound in an organization.- 4 class of ODSS in a 3 Dimensional Framework (see Figure 16-

University of Florida - CGS - 2531

Chapter 17Multiparticipant Decision Support Systems1. Distinguish between GDSSs and ODSSs. (traits, definitions)- ODSS-Involves computer-based technology and may contain communicationtechnologies.- accommodates users who perform different organizatio

University of Florida - CGS - 2425

EXPERT SYSTEMSChapters 1-5The world of Artificial Intelligence (AI)OverviewAI endeavors to make machines such as computers capable of displaying intelligentbehavior.AI research topics :a. Natural language processingb. Reasoningc. Automatic progra

University of Florida - PHY - 3513

Homework APHY3513Due: Monday, Jan 231111+ + + + . = ?2 3! 4! 5!11111(b) 1 + + . = ?234561. (a) 2 +2. Expand (1 2tz + t 2 ) 1/2 in powers of t assuming that t is small. Collect the coefficientsof t0, t1. and t2.3. The displacement z of a partic

University of Florida - PHY - 3513

Homework BPHY3513Due: Friday, Feb. 10, 20121. (4.2)2. (4.4) Note that there is a factor of two error in the equations stated in the text for thisproblem. Also, recognize that dT/dE is related to an important thermodynamic quantity. e e x3. (4.7)

University of Florida - PHY - 3513

Homework CPHY3513Due: Friday, February 24, 20121. (a) problem 6.1; (b) Calculate the average distance between the molecules.2. problem 6.23. problem 6.44. problem 6.55. A gas is contained in a cylinder fitted with a frictionless piston and is taken

University of Florida - PHY - 3513

Homework DPHY3513Due: Mar. 16, 20121. A Carnot cycle using 1 mole of an ideal gas (not necessarily a monatomic gas) as aworking substance is composed of two isothermal and two adiabatic reversible processes(See figure).The thermodynamic states are d

University of Florida - PHY - 3513

Homework EPHY3513Due: Monday, April 2, 20121. (16.1) Try and do these without looking up the derivations in your textbook.2. (16.2) Justify each step in your derivations (i.e., reciprocity, Maxwell relation, etc.)3. (a) (16.3) Use the relations: dU =

University of Florida - PHY - 3513

Homework FPHY3513Due: April 11, 20121. The van der Waals equation of state provides a model for real gases. Another modelfor a real gas involves a perturbative expansion from Boyles ideal gas law. For onepVmole of a real gas, instead of= 1 (ideal g

University of Florida - PHY - 3513

Reflections on the Motive Power of FireandOn Machines fitted to produce that Power(V1, p1)(V2, p2)(V4, p4)(V3, p3)T1T2(V2, p2)(V1, p1) W = - Q < 0(V3, p3)(V2, p2)U = W < 0(V3, p3)(V4, p4) W = - Q > 0(V1, p1)U = W > 0S u m m a ryo n C a

University of Florida - PHY - 3513

Conversion of Heat to Work (a heat engine)Heat reservoir attemperature T2 > T1Q heatW workboth in JoulesQ2HeatEngineQ1Cold reservoir atColdtemperature T1 < T2WCooling via Work (Carnot Refrigerator)Environment attemperature Th > TlQhWRef

University of Florida - PHY - 3513

A th e o ryis th e m o re im p re s s ive th e g re a te rth e s im p lic ity o fits p re m is e s ,th e m o re d iffe re ntkind s o fth ing s itre la te s ,a nd th e m o re e xte nd e d its a re a o fa p p lic a b ility.T h e re fo re th e d e e p im p

University of Florida - PHY - 3513

"Experiment is the interpreter of nature.Experiments never deceive. It is our judgmentwhich sometimes deceives itself because itexpects results which experiment refuses."- Leonardo da Vinci(1452-1519)Thermodynamics Large number of particles ~N= 6

University of Florida - PHY - 3513

View on Cold in 17th Centurywhile the sources of heat were obvious the sun, thecrackle of a fire, the life force of animals and human beings cold was a mystery without an obvious source, a chillassociated with death, inexplicable, too fearsome toinve

University of Florida - PHY - 3513

In-class Exam #1, Wednesday, Feb 1 (50 minutes)Covers chapters 1-3, HW_A and lecture material.Formula sheets/notes (2 pages single sided) allowed.Hand held calculators allowed. HW_B due Friday, Feb 10Maxwell-Boltzmann velocity distributionMaxwell-B

University of Florida - PHY - 3513

Gas pressure and the ideal gas lawAssume specular collisions*Change in momentum:mv cos ( mv cos )= 2mv cos *Bold assumption but more general calculation gives same result.Molecular FluxMolecular# in cylinder = n f (v) dv ( vdt cos dA )Elementofar

University of Florida - PHY - 3513

ThermodynamicsThermodynamicsConcerns the study of the Equilibrium properties (or quasi-static equilibrium)of a system and its surroundings.Temperature is a variable, and heat and work are somehow involved.Heat is energy in transit.SurroundingsWoSy

University of Florida - PHY - 3513

Configuration WorkConfigurationThis is the work done in a reversible process given by the product of someintensive variable (y) and the change in some extensive variable (X). The mostgeneral case would be:W = y dX ,iii = 1, 2,.n.iW is called th

University of Florida - MAP - 6506

Exam 1, MAP 6506, Spring12, Due March 19, 2012, (by 3 pm in class)Consider the Derichlet and Neumann problems for the two-dimensional Laplace equation.The same notations are adopted as in lectures. An open bounded region G is bounded by acurve S that h

University of Florida - MAP - 6506

Exam 1, MAP 4341/5345, Spring121. Determine the equilibrium temperature distribution for one-dimensional rod with constantthermal properties:ut(x, t) = kuxx(x, t),u(x, 0) = x(L x),ux (0, t) u(0, t) + T = 0,ux (L, t) = awhere T and a are constants,

University of Florida - MAP - 6506

Exam 1, MAP 4341/5345, Spring121. Show your work! Write your name on every piece of paper you turn in!2. Write your alias name on the back of the exam sheet.3. You may use appropriate Fourier series for the solutions satisfying the zero boundary condit

University of Florida - MAP - 6506

Exam 3, MAP 4341/5345, Spring121. Show your work! Write your name on every piece of paper you turn in!2. You may use appropriate Fourier series for the solutions satisfying the boundary conditions (as inthe homework) without deriving them.1. Solve the

University of Florida - MAP - 6506

Homework 1, MAP 6506, Spring12, Due March 19, 2012, (by 3 pm in class)1. Consider an integral equation with Volterra kernel:xu (x ) = aK (x, y )u(y )dy + f (x)where K (x, y ) is continuous in the closed triangle a y x b and f is continuous on [a, b]

University of Florida - MAP - 6506

Homework 1, MAP 4341/5345, Spring121. Solve the initial value boundary problemut(x, t) = kuxx (x, t),u(x, 0) = T,u(0, t) = 0,ux (L, t) = 0where T is a constant.Answer:2an ekn t sin(n x),u(x, t) =n =nn,2Lan =4T[1 cos(n L)],nn = 1, 3, 5,

University of Florida - MAP - 6506

Homework 2, MAP 4341/5345, Spring121. Solve each of the following initial value boundary problems for the heat equationut(x, t) = kuxx (x, t) + q (x, t):(i). k = 1, u(x + 1, t) = u(x, t), u(x, 0) = 2 sin2(x), q (x, t) = sin(2x t)(ii). k = 2, u(2, t) =

University of Florida - MAP - 6506

Homework 3, MAP 4341/5345, Spring121. LetA=6 22 3(see also the textbook Example on p. 186 and your notes). Use the orthogonal basis of theeigenvectors of the matrix A to solve each of the following initial value problems:(i)dx04= Ax + f , f =,