Wisconsin - MEDIA - 0126

Paro Depth By Pres, Thermistor Temp, Paro Temp, Freeze temp Vs. Time From 1/26/2007 8:54:58 to 1/27/2007 8:54:58 0 4 Paro2 Depth From Pres (m) Paro2 Temp (C) Thermistor Temp (C) Freeze Temp at Depth (C) 500 Paro2 Depth by Pressure 2 Temperature (C) 1

Wisconsin - MEDIA - 0127

Keller Depth By Pressure Vs. Time From 1/26/2007 13:34:58 to 1/27/2007 13:34:58 0 Keller Depth500 Keller Depth By Pressure1000150020002500 26.6 26.8 27 27.2 27.4 DOY Created by pjplots Sun Jan 28 09:02:37 2007 doy 028

Wisconsin - MEDIA - 0126

Paro Depth By Pres, Thermistor Temp, Paro Temp, Freeze temp Vs. Time From 1/26/2007 8:44:58 to 1/27/2007 8:44:58 0 4 Paro2 Depth From Pres (m) Paro2 Temp (C) Thermistor Temp (C) Freeze Temp at Depth (C) 500 Paro2 Depth by Pressure 2 Temperature (C) 1

Wisconsin - MEDIA - 0126

Paro, Keller Depth By Pres, Hose Tension Vs. Time From 1/26/2007 8:44:58 to 1/27/2007 8:44:58 3500 Hose Tension Paro Depth Keller Depth Difference -500300002500 Depth By Pressure 500 String Tension 2000 1000 1500 1500 1000 20005000 26.9 27.

Wisconsin - MEDIA - 0127

Hose Tension and Paro Depth by Pressure Vs. Time From 1/26/2007 13:34:58 to 1/27/2007 13:34:58 3500 String Tension Paro2 Depth 3000 500 2500 1000 Depth By Pressure String Tension 02000150015001000 2000 5000 26.6 26.8 27 27.2 27.4 DOY Create

Wisconsin - MEDIA - 0127

Paro, Keller Depth By Pres Vs. Time From 1/26/2007 13:34:58 to 1/27/2007 13:34:58 3500 Hose Tension Paro Depth Keller Depth Difference -500300002500 Depth By Pressure 500 String Tension 2000 1000 1500 1500 1000 20005000 27.1 27.3 27.4 DOY C

Washington University in St. Louis - PAGE - 318

P hysics 318 Solution f or P roblem Set 4 1. (a)an atom with three p-shell valence electrons l1 = l2 = l3 = 1, and s1 = s2 = s3 = 1 2 assume l = l1 + l2 |l1 l2 | l |l1 + l2 | 0 l 2 and l3 = 1,0 l + l3 3 0 l 3 so l can be 0, 1, 2, 3 Notatio

Washington University in St. Louis - PAGE - 318

P hysics 318 Solution f or P roblem Set 61. See above. 2. (a) from the problem that the Fermi energy of aluminum is 11.63 ev at low temperature, low temperature means that T 0 1and for free electrons, they are fermions, so the mean number of fre

Washington University in St. Louis - PAGE - 318

P hysics 318 Solution f or P roblem Set 10 1. From the problem, the 0 has a mass m of approximately 135M ev/c2 So, m0 c2 = 135M ev mc = c 197.3M ev 1015 m = 1.463 1015 m = 2 m0 c 135M evWhile the fermi is dened as 1015 meters. So the range is th

Washington University in St. Louis - PAGE - 318

P hysics 318 Solution f or P roblem Set 9 1 When k near the origin, that means k 0 2 (k a)2 using Taylor expansion, cos(kx a) 1 (kx2a) + . . ., cos(ky a) 1 y2 + . . ., cos(kz a) 1 (kz a)2 2+ .l(kx a)2 (ky a)2 (kz a)2 +1 +1 ] 2 2 2 2

Washington University in St. Louis - PAGE - 318

P hysics 318 Solution f or P roblem Set7 1 The maximum value of f (x) = and f (x) = x3 df (x) is given by = 0. ex 1 dxxex = 0 x 2.82 that means h = 2.82kB T 2.82kB T At T = 2.7K , = = 1.59 1011 s1 h(ex 1) 3x2 ex x3 = 0 3x2 (ex 1) x3 ex

Washington University in St. Louis - PAGE - 318

P hysics 318 Solution f or P roblem Set 3 1. (a) H= when = 0, <H> =< = p2 p2 1 >=< 2 > = 2m 2m 12 12 < kx1 >=< kx2 > = 2 2 < <H> = = (b) p2 p2 1 1 1 + 2 + kx2 + kx2 > 1 2m 2m 2 22 2 2 p 1 1 p < 1 > + < 2 > + < kx2 > + < kx2 > . 2m 2m 21 22 12 1 < p

Washington University in St. Louis - PAGE - 318

P hysics 318 Solution f or P roblem Set 8 1. rate=number of simulated emissions/per second. rate = N2 B21 u(f ) where the B21 is the coecient of stimulated emission, N2 is the number of atoms in the upper lever, u is the electromagnetic energy den

Washington University in St. Louis - PAGE - 318

Washington University in St. Louis - PAGE - 318

Washington University in St. Louis - PAGE - 318

P hysics 318 Solution f or P roblem Set1 Each subsection counts for 10 points, if you have questions, please come to my oce crow 220, or send me email dhu@physics.wustl.edu, I think my oce hour is Monday 12-1pm, if this time is not good for you ,you

Washington University in St. Louis - PAGE - 318

Washington University in St. Louis - PAGE - 318

P hysics 318 Solution f or P roblem Set 2 1. (a) (1, 2) = (1 12 ) (1, 2). + (1, 2) = (1 + 12 ) (1, 2) = (1, 2) + (2, 1), (1, 2) = (1 12 ) (1, 2) = (1, 2) (2, 1). 12 + (1, 2) = 12 ( (1, 2) + (2, 1) = (2, 1) + (1, 2) = + (1, 2), 12 (1, 2

Washington University in St. Louis - PAGE - 318

1Fundamentals of Quantum Mechanics O= (x, t) (x, t) dx (x, t) (x, t) dx (x, t) Oop (x, t) dx (x, t) (x, t) t pop = i x xop = x Eop = i i Energy Eigenstates:Probability Density:Expectation Values:Time Evolution: = H tH

Washington University in St. Louis - PHYS - 171

Making Do: Fossil Fuel ProspectsPast, Present, and Future History shapes where we are Politics as the art of the possible Present technology shapes technical solutions political solutions Foreseeable future technology determinesthe plans we

Washington University in St. Louis - PHYS - 171

Current Global IssuesIn theory there is no difference between theory and practice. In practice there is. Yogi BerraDangers Dangers to our nation Dangers to our civilization Dangers to humanity Dangers to our planetThe Four Horsemen of the A

Wisconsin - LECTURE - 745

Washington University in St. Louis - CS - 464

EE273 Lecture 11 Introduction to TimingFebruary 19, 2004Heinz Blennemann Stanford University heinzb@stanford.eduEE273, L11, Feb 19, 2004Copyright (C) by WJD & HCB, All Rights Reserved1Logistics Problem Set 6 see handout due next Wednesd

UC Riverside - CS - 160

Concurrent and Parallel Systems CS160Instructor: Dr. Brett D. Fleisch Assignment #2: Texaco Minimart Inventory Database Due: Sunday November 17, 2002 11:59 pm OverviewIn this assignment you will be extending your first assignment. You will add the

UC Riverside - CS - 160

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UC Riverside - CS - 160

%!PS-Adobe-3.0 %Title: Microsoft Word - cs160_f2002_a3.doc %Creator: PScript5.dll Version 5.2 %CreationDate: 11/20/2002 21:48:8 %For: brett %BoundingBox: (atend) %Pages: (atend) %Orientation: Portrait %PageOrder: Special %DocumentNeededResources: (at

W. Alabama - ECE - 427

E&CE 427 Digital Systems EngineeringMark Aagaard Dept of Electrical and Computer Engineering University of Waterloo 2002t3 FallCreditsSources of information and images for this presentation: Carl Seger, Robert Jones, and others at Intel Don Lin

W. Alabama - ECE - 427

LEC-13 Preliminaries250LEC-13: Introduction to Performance AnalysisLecture Notes Sections: 4.2 4.4.3University of Waterloo Dept of Electrical and Computer Engineering E&CE 427 Digital Systems Engineering 2002t3FallChange Log.. .(*CHANGE

University of Texas - ME - 392

What is mechatronics?1Machines that integrate mechanical, electrical, and microprocessor components and systems to process information and control machines. Mechatronic designs replace mechanical elements and systems with compact, cheaper, faster

University of Texas - ME - 392

Mechatronics 1: ME 392Q-6 & 348C31-Aug-07M.D. BryantAnalogous Systems+ +R-i=q+.R: RCV RV CV-VL-L+/L = q.S e: ee(t)eC = q/C 1f C= dq/dt ef = p/I e I = dp/dtv=xk M b F.C: CI: IKB J q = p / I ,

University of Texas - ME - 392

Multi-Port Storage Elements Energy storage elements can have multiple ports Power into/out of element via multiple ports Examples: o Actuators: motors1, relays, generators o Sensors: probes o Distributed elastic devices: beams o Piezoelectricity

University of Texas - ME - 392

University of Texas - ME - 392

The University of Texas at Austin Department of Mechanical Engineering ME 392Q-6, Mechatronics; ME 348C, Intro to Mechatronics HOMEWORK PROJECT 1: Due 10/9/2007 Select or find a dynamic system of interest to you, or one for which you may be knowledge

University of Texas - ME - 392

endbell stator winding stator core rotor barbearingbearingshaftrotor end ringfanbladeMotors & Motor Action Motor has o Stator: non-rotating section o Rotor: rotates Motor action o Stator coils creates rotating magnetic field o Rotor

University of Texas - ME - 392

Michael Dav id Bryan t ME 392Q Mechatronics 110/11/07 University of Tex as at Austin4Transducers:receive energy, convert, & retransmit in (usually) different formActuator changes a signal or state adds or subtracts powerSensor sensitive

University of Texas - ME - 392

The University of Texas at Austin Department of Mechanical Engineering ME 392Q-6, Mechatronics; ME 348C, Intro to MechatronicsHOMEWORK PROJECT 1 Corrections: Due Thursday 10/18/2007 or Friday 10/19/2007 at noonMake corrections indicated on project

University of Texas - ME - 392

Michael Dav id Bryan t ME 348C/392Q Mechatronics 1111/1/07 University of Tex as at AustinSignal Conditioning Issues:Filtering Ideal frequency domain filter Ideal time domain filter Practical Filter Types Butterworth Bessel Chebyschev Cauer Ell

University of Texas - ME - 392

The University of Texas at Austin Department of Mechanical Engineering ME 392Q-6, Mechatronics; ME 348C, Intro to Mechatronics HOMEWORK PROJECT 3, Due 11/29/2007 Broken or degraded system: During project 3, you will identify and investigate overall f

University of Texas - ME - 392

Diagnostics: Purpose D e te c t im p e n d in g f a u lts e a r ly A v o id c a ta s tr o p h ie s I n d ic a te n e e d e d m a in te n a n c e E s ta b lis h c a p a b ilitie s : w h a t jo b s c a n m a c h in e d o ?Signal Based Diagnostics

University of Texas - ME - 392

The University of Texas at Austin Department of Mechanical Engineering ME 392Q-6, Mechatronics; ME 348C, Intro to Mechatronics HOMEWORK PROJECT 4, Due 5 pm, Wednesday, December 12, 2007 During project 4, you will assess overall functionality of the d

Washington University in St. Louis - BIO - 3055

Date: Thu, 4 Sep 2003 21:22:48 +0100 From: Apache <psipred@cs.ucl.ac.uk> To: aprilb@biology2.wustl.edu Subject: hprt1 PSIPRED Results PSIPRED PREDICTION RESULTS Key Conf: Confidence (0=low, 9=high) Pred: Predicted secondary structure (H=helix, E=stra

Michigan - PERSONAL - 8021

Interfaces 802.1x - EAP - 802.11 Key Exchange802.1x /EAP Key Exchange Port Activate portStatus = authorized Authenticate keyAvailable=True user/AS portValid=True Establish session key Enable controlled portportActive=TrueChanges to state machine

UNI - CNS - 061

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West Point - MA - 104

MA104 Fundamental Concepts WPR 1 Number of Additional Sheets_ Time: 55 minutes Total Weight: 200 Points1 February 2005 Cadet_ Section_READ THESE INSTRUCTIONS CAREFULLY BEFORE STARTING WORK. 1. Place all textbooks, etc. neatly in the hallway. 2. P

West Point - MA - 104

Homework 1. MA104. This HW is due Thursday February 10 during class. You need a cover sheet, but no brown bombers please. This is individual work; all assistance must be cited. 40 points.1. A boat is pulled into a dock that is attached to the bow o

West Point - MA - 104

Homework 2. MA104. This HW is due Thursday February 17 during class. You need a cover sheet, but no brown bombers please. This is individual work; all assistance must be cited. 60 points.1. Required the minimum value of y in the equation y = xx. 2.

West Point - MA - 104

zy xzLy xzLy xzP0 (x0, y0, z0)Ly xzP0 (x0, y0, z0)Ly xzP0 (x0, y0, z0)L v y xzP0 (x0, y0, z0)L v y xzP0 (x0, y0, z0) P (x, y, z) L v y xzP0 (x0, y0, z0) P (x, y, z) L v y xzP0 (x0, y0, z0) a L v y

West Point - MA - 104

zy xzy xzP0 (x0, y0, z0) y xzr0P0 (x0, y0, z0) yxzP (x, y, z)r0P0 (x0, y0, z0) yxzP (x, y, z)r r0 P0 (x0, y0, z0) y xzP (x, y, z) r - r0 r0 P0 (x0, y0, z0) y xrzP (x, y, z) r - r0 r0nrP0 (x0, y0, z0)

West Point - MA - 104

MA104 PSL 4"Be an example to your men, in your duty and in private life. Never spare yourself, and let the troops see that you don't in your endurance of fatigue and privation. Always be tactful and well-mannered and teach your subordinates to do t

West Point - MA - 104

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West Point - MA - 104

MA205 Lesson 45LaGrange MultipliersLsn 35 - 1Objectives Understand why the method of LaGrange identifies potential maximum and minimum function values. Using the method of LaGrange multipliers, solve extrema problems for functions of several

West Point - MA - 104

MA204. Quiz. 22 April 2005. Name: _ Prof. Rickey. Section B10. 50 points. 1. The vector field for the differential equation dy =x + y dx is sketched below. a. On this graph sketch the solution whose initial condition is y(0) = -1.3210-1-2

West Point - MA - 104

Problem 2bn 0 1 2 3 4 5 6 7 8 9 10x_n 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45y_n 500 476 451.69 427.25 402.88 378.82 355.37 332.82 311.52 291.8 273.98 258.2

West Point - MA - 104

Taliban HunterBelow is a topographical map of an area in the Tora Bora Region of Eastern Afghanistan. The axes units are given in kilometers. The function shown here determines the elevation (in kilometers) at any coordinate (x: easterly coordinate,

West Point - MA - 104

MA 104 Spring 2005 Block 6: Application of the Derivative to Other Disciplines Block Objective: Apply material learned throughout the course to problems from other disciplines such as economics, physics, mechanical engineering and environmental engin

CSU Fullerton - ISDS - 361

ISDS 361A Sections Covered in Part IIIChapter 12: Sections 3 & Computer Printouts Chapter 16: Sections 1-6 Chapter 17: Sections 1-2 Chapter 15: Sections 1-2

CSU Fullerton - ISDS - 361

Chapter 1515.1 H 0 : p1 = .1, p 2 = .2, p 3 = .3, p 4 = .2, p 5 = .2 H1 : At least one p i is not equal to its specified value. Cell i 1 2 3 4 5 Total fi 24 64 84 72 56 300 ei 300(.1) = 30 300(.2) = 60 300(.3) = 90 300(.2) = 60 300(.2) = 60 300 (f i

CSU Fullerton - ISDS - 361

Chapter 1616.1 a The slope coefficient tells us that for additional inch of fathers height the sons height increases on average by .516. The y-intercept is meaningless. b On average the son will be shorter than his father. c On average the son will

CSU Fullerton - ISDS - 361

Chapter 1717.11 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 A SUMMARY OUTPUT Regression Statistics Multiple R R Square Adjusted R Square Standard Error Observations ANOVA df Regression Residual Total 3 56 59 SS 29,030 90,694 119,724 MS 9,677 1

CSU Fullerton - ISDS - 361

ISDS 361A Sections Covered in Part IIChapter 8: Sections 1, 2 Chapter 9: Sections 1, 2, 4 Chapter 10: Sections 1-3 Chapter 11: Sections 1-4 Chapter 12: Sections 1, 3

CSU Fullerton - ISDS - 361

Chapter 88.1a. P(X > 45) (60 45) 2 (75 60) 2 + = .0800 50 15 50 15 (15 10) 16 (30 15) 8 (40 30) 8 + + = .4800 50 15 50 15 50 15b. P(10 < X < 40) c. P(X < 25) (15 [30]) 6 (0 [15]) 10 (15 0) 17 (25 15) 7 + + + = .7533 50