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101B, MAE Spring 2009 Equation Sheet for Midterm 2 05/12/09 Viscous Shear Stress on a Plane Wall (defined by y = 0) w = Flat-Plate Boundary Layer Equations u v + = 0, x y u Bernouilli Equation p(x) + U (x)2 U 2 = constant = p + . 2 2 u u p 2 u U 2u + v =- + 2 = U + 2. x y x y x y u y . y=0 Friction and Drag Coefficients for a Zero-Pressure-Gradient, Flat-Plate, Laminar Boundary Layer w 1 U 2 2 D 1 U 2 bL 2...
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101B, MAE Spring 2009
Equation Sheet for Midterm 2 05/12/09
Viscous Shear Stress on a Plane Wall (defined by y = 0) w = Flat-Plate Boundary L...
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UCSD - MAE - 101
UCSD - MAE - 101
UCSD - MAE - 101
Georgia Tech - ATOC - 5560
Lecture 16.Light scattering and absorption by atmospheric particulates. Part 3: Scattering and absorption by nonspherical particles: DDA methods. Examples.Objectives: 1. Basics physics of dipole interactions. 2. Outline of the DDA method. 3. Effec
UMBC - PHYS - 112
Physics 112Solutions to Homework Questions 1Homework 1 (solutions)(2004 Fall)Chapt15, Problem-1:A 4.5 x 109 C charge is located 3.2 m from a 2.8 x 109 C charge. Find the electrostatic force exerted by one charge on the other.Solution: Sinc
UMBC - PHYS - 112
Physics 112Solutions to Homework Questions 1Homework 1 (solutions)(2004 Fall)Chapt15, Problem-1:A 4.5 x 109 C charge is located 3.2 m from a 2.8 x 109 C charge. Find the electrostatic force exerted by one charge on the other.Solution: Sinc
UMBC - PHYS - 112
Physics 112Solutions to Homework Questions 7Homework 7 (solutions)(2004 Fall)An AC power supply produces a maximum voltage of !Vmax = 100 V. This power supply is connected to a 24.0-" resistor, and the current and resistor voltage are measure
UMBC - PHYS - 112
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UMBC - PHYS - 112
Physics 112 Homework 8 (solutions) (2004 Fall)Solutions to Homework Questions 8Chapt22, Problem6: The two mirrors in Figure P22.6 meetat a right angle. The beam of
UMBC - PHYS - 112
Physics 112Solutions to Homework Questions 1Homework 1 (solutions)(2004 Fall)Chapt15, Problem-1:A 4.5 x 109 C charge is located 3.2 m from a 2.8 x 109 C charge. Find the electrostatic force exerted by one charge on the other.Solution: Sinc
Texas A&M - LESSON - 240
Memorandum To: Billy Bob Kirkham, Chairman of the Board Through: Mickey Stratton From: Vic Musculoso We at Mighty Mick's School of Muscles are very proud of our project "Old and Bold". The objective of this project is to encourage our senior citizens
FIU - COT - 6930
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FIU - COT - 6930
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FIU - COT - 6930
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FIU - COT - 6930
The Specification and Modeling of Computer SecurityJohn McLean Center for High Assurance Computer Systems Naval Research Laboratory Washington, D.C. 20375Computer security models are specifications designed, among other things, to limit the damage
FIU - COT - 6930
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FIU - COT - 6930
1998 IEEE Symposium on Security andPrivacy,3-6 May 1998, Oakland, CaliforniaOn the Formal Definition of Separation-of-Duty Policies and their CompositionVirgil D. Gligor Electrical Engineering Department University of Maryland College Park, MD. 20
FIU - COT - 6930
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FIU - COT - 6930
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FIU - COT - 6930
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FIU - COT - 6930
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FIU - COT - 6930
COT 6930 Advanced Topics in Theory Theory of Security Prof. Newman Homework 1. Due Thursday, Feb. 7, 2002. Analyze the following protocols using the BAN logic. Show all assumptions, idealized protocol, conclusions after each message delivery in the
Long Island U. - EE - 0406
Day High Monday Tuesday Wednesday Thursday Friday Saturday SundayLow 76 76 77 73 62 64 67 59 63 63 48 46 50 52 Temperature (F)Daily Temperatures90 80 70 60 50 40 30 20 10 0M on da y Tu es da y W ed ne sd ay sd ay da y Sa tu r Su nd ay Fr id ay
Long Island U. - EE - 0406
EIGHTH GRADE ENGLISHSpeakSummary Format: Main Character's Name: One Character Trait: Explain Why: Second Character Trait: Explain Why: Third Character Trait: Explain Why:Speak by Laurie Halse AndersonMargaret RyanMetz Meredith Hasemann-Cortes
Long Island U. - EE - 0406
Directions for The Power of a Penny Activity: 1. Ask the students, "Would you rather take $1,000,000 right now, or a penny that doubles every day for a month?" 2. Tell students that today they will be using a spreadsheet to calculate which choice wou
Long Island U. - EE - 0406
Margaret RyanMetz Grade: 7th Period: 2nd Lesson to be observed: Literature Circles Focus on clues Standard: English Language Arts Standard 1, 3, and 4 POST OBSERVATION REFLECTION FORM 1. The students were active participants in the lesson. The stude
East Los Angeles College - CHEM - 1005
LECTURE 2 Highly Reactive Carboxylic Acid Derivatives Preparation All of these functional groups are conveniently prepared from carboxylic acids as shown in the scheme below.OThe Chemistry of Acid Chlorides Dominated by Nucleophilic Substitution
East Los Angeles College - CHEM - 1005
Lecture 8 Reactions of Ketones and Aldehydes with bases Most C-H bonds are not considered to be acidic.H pKa ~ 51 H pKa ~ 44 H pKa ~ 43Lithium Diisopropyl Amide LDA is commonly used.Li NLDA =C-H bonds next to carbonyls are very weakly acidi
N.C. State - CSC - 440
CSC440 HW#1 SolutionProblem1 1 URL serves as a unique identifier for the Websites, so it is the key of the entity set Websites and it should be underlined. 2 For the subclasses Webstores and Personal Sites, they can not have the key attribute-URL, b
Arizona - AME - 352
AME 352, Exam-1, Answers 1. Number of moving bodies: 7 Number of full joints: 9 Number of half joints: 1 Number of degrees of freedom based on the mobility formula: 2 2. (a) Non-Grashof (b) Grashof 3.3 4= 0.16 CCW = 0.25 CWB P V = 0.96 P O VA
Arizona - AME - 352
AME 352, Fall 2008, Exam-2 1. Measurements in centimeters (a)Name: _ Solution _VC = VB + VCB RCB = 3.6 cm VCB = 3.6 2 = 7.2 VC = 8.3 cm/sec as shownn A C = A B + A CB + A tCB n ACB = 3.6 22 = 14.4 t ACB = 3.6 1.5 = 5.4AC = 17.8 cm/sec2 as sho
Arizona - AME - 352
AME 352, Exam-3 1. The moment arms with respect to C are shown in centimeters.Name: _ Solution _FAA3.5TFBBC8.4FC FAFBFCTC = 3.5 20 + 8.4FBFA = 20 0 FB =y30 = 0FB = 11.9 in positive y-directiony0 11.9 0 20 + FC = 0 +
Arizona - AME - 352
AME 352, Fall 08, HW-11. For each of the mechanical systems shown: (a) Identify each joint on the figure (write P for pin, S for slider, R for roll). (b) Assign numbers to the moving bodies (1, 2, 3, etc.). (c) Determine total number of moving bodi
Arizona - AME - 352
AME 352, Fall 08, HW-10 1. For a slider-crank mechanism with no offset the lengths of the crank and the connecting rod are given as 2 = 1.5 and 3 = 4. The mass centers are at the geometric centers. The inertial data are given as: m2 = 2, I G = 0.375,
Arizona - AME - 352
AME 352, Fall 08, HW-12 1. A system of four non-coplanar weights is arranged on a shaft as shown schematically (arbitrarily). The shaft rotates at 100 rpm. Assume the following data (use any consistent unit system you prefer): link 1 2 3 4 m 3.0 6.5
Arizona - AME - 352
AME 352, Fall 08, HW-21. Design a four-bar Grashof crank-rocker for 55 of output rocker motion with a time ratio of 1:1 (no quick return). a) Design the four-bar on paper (or use drafting/drawing software) b) Construct the mechanism with WM c) Dete
Arizona - AME - 352
AME 352, Fall 08, HW-5 Problem 1: (Instant Center Method) Consider this inverted slider-crank mechanism: a) Find the instant centers. b) Assume that link 2 which has a unit length rotates clockwise with an angular velocity of 1.5 rad/sec. What is the
Arizona - AME - 352
AME 352, Fall 08, Answers to HW-1 Problem 1:S P P 1 3 P P 2 3 P R P 1 S 2 1 P 2 S 3 P(a)P 1(b)(c)2 P 3 P P 4 5 5 P S P P 3 21P 1 SPP P 4 PP2 R 3P(d)(e)(f)S1P 2 P 3 P 1P 2P1 S 2P3 S(g) Mobility formula:
Arizona - AME - 352
AME 352, Fall 08, Solution HW-11 1. Since this is a dynamic force analysis, we must determine all the velocities and accelerations (the method of solution is our choice).Velocity Polygon A1.0 0.49A G2, OV0.4Acceleration Polygon2.0G4 B0.8
Arizona - AME - 352
AME 352, Fall 08, Solution HW-13 1.BA3CVCOA2= 1(CCW ); O2 A = 1cm T2 2 + RCVC = 0 100 1 + RC ( 0.027) = 02VC = 2.7cm / sec RC = 3300N (to the right)3.70 mm 24 mm R R Q 10 mm 20 N 18 mm F 1 F 1 F 1 R 20 N 2.5 mm OF = 10 N HRF
Arizona - AME - 352
AME 352, Fall 08, Answers to HW-2 Problem 1: Follow the procedure from Example 3-1 in Chapter 3 of the textbook. One of infinite number of solutions to this design problem is: L1 = 5.45 (ground link), L2 = 1.15 (crank), L3 = 5.0 (coupler), L4 = 2.5 (
Arizona - AME - 352
AME 352, Fall 08, Answers to HW-3 Problem 1: a.1) 3 = 0.36 CCW a.2) 4 = 0.22 CW a.3) VB = 0.48 @60 a.4) VBA = 0.91 @147B VB V B/AO VVAAProblem 2: a.1) 3 = 0.14 CW a.2) VB = 0.86 @ 0 a.3) VBA = 0.35 @ 258V A OV VB B A V B/AB V B/A AVB VA
Arizona - AME - 352
AME 352, Fall 08, Answers to HW-4 Problem 1: a) Draw the velocity polygon and then determine: a.1) Angular velocity of link 4 and link 3; = 0.33 rad/sec CW a.2) Sliding velocity; = 0.7 unit/sec in the direction shown on the polygon a.3) Absolute velo
Arizona - AME - 352
AME 352, Fall 08, Solution HW-5 Problem 1:VPV2,31,4 2,3 1,2V2,42,43,4 @1,34=3= 0.49 rad/sec CWVP = 1.82 in the direction shownProblem 2: 2,4 @ 3,4 1,3 1,4 @VA 2,3 1,2 @VB4.b) 2.69 rad/sec CW 4.c) 2.23 unit/sec Problem 3:
Arizona - AME - 352
AME 352, Fall 08, Solution HW-6Problem 1: = 0.14 CW 34B C= 0.44 CW = 0.3 CW = 0.39 CCWO 2 A O 4VP = 1.23 4AP = 1.16A CVt VAO2t BABAtAOAn BAAAn AOACC22VCt VBOOAAn BO AtBO44AtBAB4OVProblem 2: = 0.
Arizona - AME - 352
AME352, Fall 2008, Solution HW-7 Problem 1:C(2)V C 3.1BV B 6.1 6.14,2(4) 1,43.41,2V 4,2 9.74,55.11,5(5)D V D3.22,5V2,5= 0.3 CW V4,2 = 1.8 cm/sec2= 0.3 CCW VC = 0.9 cm/sec V2,5 = 2.9 cm/sec4= 0.9 CW VD = 4.6 cm/s
Arizona - AME - 352
AME352, Fall 2008, Solution HW-8 Problem 1: a)2A3R2 R1 R3 R441= 270 o = 0oO4CPR2 + R3 R4R1 = 0b)R2 cos R2 sin2 2+ R3 cos + R3 sin33R4 cos R4 sin3 3 44R1 cos R1 sin11=0=0By plugging in the constant values
Arizona - AME - 352
AME352, Fall 2008, Solution HW-9 1. RO = 636.4 N @ 225o2.FB = 2010 N perpendicular to the contact surface 3.R = 1600 N upward4.FB = 1410 N upward
Wisconsin - PA - 880
PA 880 Problem set #9 Fall 2006 Problem #1 Online Dating In Freakonomics, economist Steven Levitt discusses the online dating world. According to him, about 40 million Americans a year try to date online. Clearly, there are information problems in o
NMT - EE - 231
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NMT - EE - 231
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NMT - EE - 231
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NMT - EE - 231
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NMT - EE - 231
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NMT - EE - 231
EE/CS 231 DIGITAL ELECTRONICS Assignment #21.) Use algebraic manipulation to prove the expression in problem 2.5. 2.) What is the Dual of the expression in problem 2.5?Fall 20013.) For the following expressions represent the Digital logic functi
NMT - EE - 231
EE/CS 231 DIGITAL ELECTRONICS Assignment #3Fall 20011.) Problems from Brown: 4.1, 4.2, 4.4, 4.14, 4.15, 4.19 (min. number of AND & OR gates: NOT is free), 4.20 NOTE: Do not use Brown's minimum cost eqn. 2.) BONUS QUESTION (+5%) Convert the proble
NMT - EE - 231
EE/CS 231 DIGITAL ELECTRONICS Assignment #4Fall 20011.) Design a minimum SOP combinational logic circuit that converts 4-bit sign & magnitude numbers into the corresponding ones complement representation. 2.) Problems from Brown: 5.3, 5.4, 5.5, 5
NMT - EE - 231
EE/CS 231 DIGITAL ELECTRONICS Assignment #5Fall 20011.) Problems from Brown: 5.21, 5.22 (HINT: use FA blocks), and 5.259 (HINT: For minimum think min. SOP then Extraction). 2.) Design a circuit to multiply two 2-bit (unsigned) numbers. .
NMT - EE - 231
EE/CS 231 DIGITAL ELECTRONICS Assignment #7Fall 20011.) Problems from Brown: 3.45 (HINT: get min. SOP first), 3.49 (HINT: see pp. 44-45), 3.50 (HINT: use only 3-input NAND gates), 7.3. 2.) Given: X(A,B,C,D)=SUM of m(1,2,3,5,7,9,11,13,15), Y(A,B,C
NMT - EE - 231
EE/CS 231 DIGITAL ELECTRONICS Assignment #81.) Problems from Brown: 7.1 (NOTE: One is a gated latch and the other two are FF's) and 7.8. 2.) Complete the following timing diagram for a J-K latch assuming that: a) It is a basic (transparent) latch b)
NMT - EE - 231
EE/CS 231 DIGITAL ELECTRONICS Assignment #9Fall 20011.) Problems from Brown: 7.18 (HINT: Create the State Transition Table (STT), 7.35, 8.1 (simply give the Boolean eqns. For D2, D1, and Z), 8.2 (simply give the Boolean eqns. For J2, K2, J1, K1,