University of Texas - ACC - 02255

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University of Texas - ACC - 02255

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University of Texas - ACC - 02255

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University of Texas - ACC - 02255

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University of Texas - ACC - 02255

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University of Texas - ACC - 02255

!" # $ %& ' % (&)*+ !,* (-*+,.+-*/ (,0*+,1+ ,)*+ ,)+23 $4 5 5 6 6 5 #)+ ,0+# ,)+,7+,)*+ ,8+94 $ : 5 ;<2 = ,)*+,*+ !,7+> ,7*+ ,1+2 ,7+ ,7+ ,)1+ ,)1+ 93<)+ " )!,8+ 7!,)1+ 1! ,0+ 0!,7-+ ,7+#)+ 4

University of Texas - PGE - 19460

Formulae for PGE 424 y |(y/x1)Q|x1+ |(y/x2)Q| x2+ |(y/x3)Q| x3 ( )/t+div(q)=0; div(q)=0 kml'= kij mi lj where mi= Cos (xm, xi) Q= (k/)A (P1-P2)/L; Q = 2kh (Pe-Pw) / ln(re/rw) m = (kA/c) ( 1- 2)/L; Qb=(kA/2ZL)cfw_(P12-P22)/Pb Qsc = 7.03x10-4 kh (Pe2-Pw2)/c

University of Texas - PGE - 19460

Formulae for PGE 424 y |(y/x1)Q|x1+ |(y/x2)Q| x2+ |(y/x3)Q| x3 ( )/t+div( q)=0; div(q)=0 kml= kij mi lj where mi= Cos (xm, xi) Q= (k/ )A (P1-P2)/L; Q = 2 kh (Pe-Pw) / ln(re/rw) m = (kA/ c) ( 1- 2)/L; Qb=(kA/2 ZL)cfw_(P12-P22)/Pb Qsc = 7.03x10-4 kh (Pe2-Pw

University of Texas - PGE - 19460

University of Texas - PGE - 19460

vAqbcfw_yc, 4,4K= lo*PQ -HW#z,.,V = ?-inc|- 5'0ft e'r'ta_\e,L-",Icfw_*'3ollgcwr,"*- tl+**ah'". =7 't2,M=P,o.otCP= I a*r^.fi=i*rryfA=t'*&7,t+cfw_ z'Fcfw_'= 20.2*C*"F' G., = qr.*f s, f, t*tf*" *r * t*c#fs,&*/^oU, *,-be-r&e=F. & r=

University of Texas - PGE - 19460

University of Texas - PGE - 19460

PGE 424 Home Work 3 Due: March 6 1. Attached is the mercury capillary pressure data in the spreadsheet HW3. The cos for mercury/air is 372 dyne/cm. Calculate the cumulative pore throat size distribution, assuming a bundle of tubes model. Answer: Pc = 2cos

University of Texas - PGE - 19460

Prob. 1 WOR qw/qo Sw increasing Swr Sor Sw 0.51fw/(1-fw) 1 fw= WOR/1+WOR 0.5 Imbibitionkro 0.75(1-SwD)2 krw 0.1 (SwD)2 0.3 vw 0.5 0.25 vo 5 fw (krw/vw)/[(kro/vo)+(krw/vw)] fw-0.5 0.5 0SwD krw kro fw 0.46 0.02 0.22Prob. 2 K (md) 60 L (cm) 7.5 A (cm2) 7.

University of Texas - PGE - 19460

PGE 424 Home Work 5 Due: April 15 1. Chemical analysis of an oil reservoir brine yielded the following results: 25,000 ppm Na+, 30,000 ppm Cl-, 7500 ppm Mg+, 6,000 ppm SO4-2, 4000 ppm HCO3-. Calculate the equivalent salinity in ppm sodium chloride, and th

University of Texas - PGE - 19460

Prob. 1 L (cm) 11.34 d (cm) Axial load (kN) Axial Deformn. (mm) Diametral Deformn. (mm) stress 25 0.05 0 50 0.08 0.01 75 0.09 0.01 100 0.12 0.01 125 0.14 0.02 150 0.16 0.02 175 0.18 0.02 200 0.21 0.03 225 0.23 0.04 250 0.27 0.06 (Failure) Ultimate strengt

University of Texas - PGE - 19460

Amrita Sen AS3773 Dishongh DSD355 Simao CNS439 Kurmanovo AK5775 Anguillet HGA226 Cavende CPC474 Susantyo MS38369 Zaveri RSZ66 Garland EJG342 Welber JAW2344 Rocha CAR2488 Moridis NGM259 Tian MT3434 Murphy - TTM234 Bautista AIB79 Salva - AGS563 Vyas SV4859

University of Texas - PGE - 19460

Quiz 1 PGE 424 Name: 1. 10 points 15 minWhat are the 3 types of rocks? Which one is important to petroleum engineering? Why? Igneous, sedimentary, metamorphic. Sedimentary is the most important because it has porosity and can hold hydrocarbons.2. 3.Wha

University of Texas - PGE - 19460

Quiz 2 PGE 424 20 minutes; 10 points1. State Darcys law.qx = -(k/) dp/dx2. Name two conditions under which Darcys law is not valid.-High flow rate or Reynolds No. -Non-Newtonian fluid flow -Low pressure gas, where mean free path ~ pore size3. How doe

University of Texas - PGE - 19460

Quiz 4 PGE 424 20 minutes1. What is "Spontaneous Potential"?Name:Electrochemical potential (aka diffusion potential) between connate water and drilling mud water2. What does the depth of investigation of an electrical log depend on?The distance betwe

University of Texas - PGE - 19460

Quiz 3 PGE 424 20 minutes Name:1. State multiphase Darcys law for oil and water flow.qw=-kkrwwdPwdx ; qo=-kkroodPodx2. Why is typically (krw+kro) < 1?Immiscible fluids block each other in the pore network.3. What does krw, relative permeability of wa

University of Texas - PHY - 303l

WANG (xw788) oldmidterm 01 Turner (59070) This print-out should have 19 questions. Multiple-choice questions may continue on the next column or page find all choices before answering. 001 10.0 points Two spheres, fastened to "pucks", are riding on a frict

University of Texas - PHY - 303l

WANG (xw788) homework 01 Turner (59070) This print-out should have 11 questions. Multiple-choice questions may continue on the next column or page nd all choices before answering. 001 10.0 points At some automobile toll-collecting stations, a thin metal w

University of Texas - PHY - 303l

WANG (xw788) homework 02 Turner (59070) This print-out should have 13 questions. Multiple-choice questions may continue on the next column or page nd all choices before answering. 001 10.0 points Four point charges, each of magnitude 14.96 C, are placed a

University of Texas - PHY - 303l

WANG (xw788) oldhomework 01 Turner (59070) This print-out should have 10 questions. Multiple-choice questions may continue on the next column or page find all choices before answering. 001 10.0 points Two uncharged metal balls, Z and X, stand on insulatin

University of Texas - PHY - 303l

WANG (xw788) oldhomework 02 Turner (59070) This print-out should have 13 questions. Multiple-choice questions may continue on the next column or page nd all choices before answering. 001 (part 1 of 3) 10.0 points In an early model for the atom the nucleus

University of Texas - PHY - 303l

WANG (xw788) oldhomework 03 Turner (59070) This print-out should have 14 questions. Multiple-choice questions may continue on the next column or page find all choices before answering. 001 (part 1 of 4) 10.0 points A uniformly charged circular arc AB of r

University of Texas - PHY - 303l

WANG (xw788) homework 03 Turner (59070) y This print-out should have 11 questions. Multiple-choice questions may continue on - A - - the next column or page find all choices - r - before answering. - - - O - 001 10.0 points - - The diagram shows an isolat

University of Texas - PHY - 303l

WANG (xw788) oldhomework 04 Turner (59070) This print-out should have 8 questions. Multiple-choice questions may continue on the next column or page find all choices before answering. 001 (part 1 of 2) 10.0 points The figure below shows the electric field

University of Texas - BIO - 325

Bizarre Deviants!Non-Mendelian inheritance Pt. 11Last TimeBreaking the Law of Independent Assortment What is linkage? Creating maps Frequency of recombination Determining the order of genes on chromosome2Bizarre deviants!The Maternal Effect Genetic

University of Texas - BIO - 325

Linkage and genetic mappinghttps:/www.llnl.gov/str/May01/gifs/Stubbs2.jpg1Last TimeOverview of gene interaction Epistasis - the masking effect Complementation - two genes, one phenotype Modifying genes - tweaking phenotypes Gene redundancy - the backu

University of Texas - BIO - 325

http:/homepage.usask.ca/~schmutz/Macintosh.jpgInheritance Patterns Pt 2Multiple genes1Last TimeMolecular basis of single gene phenotypes Dominance can be expressed in as a range, not an absolute Why are dominant disease alleles still around? Environm

University of Texas - BIO - 325

Inheritance PatternsSingle gene1Last TimeGametogenesis: sperm and egg production Stages of meiosis Important features New perspectives on Mendels Laws Sex linked traits Sex determination Key experiments in X-linked traits2Inheritance patternsMolecu

University of Texas - BIO - 325

http:/www.wineanorak.com/blog/uploaded_images/drosophila-741946.jpgMeiosis and sexual reproduction1Last TimeChromosome structure Cell division Binary Fission (prokaryotes) Mitosis/Cell cycle (eukaryotes) structures phases2Meiosis and sexual reproduc

University of Texas - BIO - 325

Chromosome structure and mitosis1Last TimePedigree analysis Predicting inheritance outcomes Sum Rule, Product Rule, Binomial Expansion Assessing the validity of genetic hypothesis Chi Square test2Chromosome structure and mitosisChromosome structure

University of Texas - BIO - 325

Credit: Irina Artsimovitch and Ohio State University)Transcription in bacteria1Last TimeCoordination of cell cycle and replication (bacteria) Technique: Mutational analysis of DNA replication (bacteria) Challenges in Eukaryotic DNA replication More DN

University of Texas - BIO - 325

Mendelian InheritancePart 21Last TimeMendels contribution to Genetics Why peas?! The mono-hybrid cross The di-hybrid cross Fundamental principles of genetics A quick look at Mendels hallmark paper2Mendelian Inheritance Pt 2Pedigree analysis Predict

University of Texas - BIO - 325

DNA replication in bacteria1Last TimeVirus genomes Composition and structural variety! Bacteria genomes Organization of DNA (landmarks and features) Higher order structures Eukaryotic genomes Organization of DNA (landmarks and features) Higher order st

University of Texas - BIO - 325

Mendelian InheritancePart I1Last TimeScientific Methods Hypothesis-driven science What's in a Paper? Intro to Paper Bashing2Mendelian Inheritance Part IMendel's contribution to Genetics Why peas?! The mono-hybrid cross The di-hybrid cross Fundament

University of Texas - BIO - 325

Genome organization1Last TimeThe transformation principle Griffith, Avery and co Hershey, Chase and the blender experiment Features of the double helix Watson, Crick and Chargaff Nucleic acid structure (overview)2Genome organizationVirus genomes Com

University of Texas - BIO - 325

Scientic Methods and Paper Analysis1Last TimeOverview and Syllabus2Science and the re breathing dragonwww.adorablekidsdressup.com3The Scientic MethodsDiscovery science Hypothesis-based sciencewww.fancyjewels.com/imgid302.securedata.net/4A hyp

University of Texas - BIO - 325

A short history of the discovery of DNA1A short history of the discovery of DNAThe transformation principle Grifth, Avery and company Hershey, Chase and the blender experiment Features of the double helix Watson, Crick and Chargaff Nucleic acid structu

University of Texas - BIO - 325

http:/www.willowaynurseries.com/Images/EuonymusGoldSplash.jpgBizarre Deviants Pt. 2Epigenetics and Extranuclear inheritance1Bizarre deviants! Pt1The Maternal Effect Genetic examples Molecular basis for inheritance Maternal effect in ies Epigenetic In

University of Texas - PHY - 303K

Husain, Zeena Homework 6 Due: Mar 1 2004, 4:00 am Inst: Sonia Paban This print-out should have 27 questions. Multiple-choice questions may continue on the next column or page find all choices before making your selection. The due time is Central time. 001

University of Texas - PHY - 303K

Bautista, Aldo Homework 14 Due: Dec 7 2005, 4:00 am Inst: Maxim Tsoi This print-out should have 18 questions. Multiple-choice questions may continue on the next column or page find all choices before answering. The due time is Central time. 001 (part 1 of

University of Texas - PHY - 303K

homework 24 BAUTISTA, ALDO Due: Mar 29 2006, 4:00 am Version number encoded for clicker entry: V1:1, V2:4, V3:2, V4:4, V5:3. Question 1 Part 1 of 3. 10 points. Three particles of mass 8 kg, 5 kg, and 8 kg are connected by rigid rods of negligible mass lyi

University of Texas - PHY - 303K

homework 11 BAUTISTA, ALDO Due: Nov 13 2006, 4:00 amGravity^ F21 = -G m12m2 r12 ,r121for r R,g(r) = G M r2G = 6.67259 10-11 N m2 /kg2 Rearth = 6370 km, Mearth = 5.98 1024 kg2 Circular orbit: ac = v = 2 r = r2 2 r = g(r) T M U = -G mr , E = U + K

University of Texas - PHY - 303K

Overton, Mays Homework 5 Due: Feb 3 2005, 4:00 am Inst: Turner This print-out should have 12 questions. Multiple-choice questions may continue on the next column or page find all choices before answering. The due time is Central time. 001 (part 1 of 2) 10

University of Texas - PHY - 303K

homework 05 ALIBHAI, ZAHID Latest unpenalized work: Feb 19 2007 Monday 04:00 (after this date you can not make a perfect score). Work cutoff: Feb 21 2007, 4:00 am. Question 1 part 1 of 4 10 points A box of mass m with an initial velocity of v0 slides down

University of Texas - PHY - 303K

practice 07 ALIBHAI, ZAHID Latest unpenalized work: Mar 4 2007 Sunday 04:00 (after this date you can not make a perfect score). Work cutoff: Mar 4 2007, 4:00 am. Question 1 part 1 of 1 10 points Two identical stars, a fixed distance D apart, revolve in a

University of Texas - PHY - 303K

Husain, Zeena Homework 6 Due: Mar 1 2004, 4:00 am Inst: Sonia Paban This print-out should have 27 questions. Multiple-choice questions may continue on the next column or page find all choices before making your selection. The due time is Central time. 001

University of Texas - PHY - 303K

Bautista, Aldo Homework 3 Due: Sep 20 2005, 4:00 am Inst: Maxim Tsoi This print-out should have 26 questions. Multiple-choice questions may continue on the next column or page find all choices before answering. The due time is Central time. 001 (part 1 of

University of Texas - PHY - 303K

homework 13 BAUTISTA, ALDO Due: Feb 22 2006, 4:00 am Version number encoded for clicker entry: V1:1, V2:4, V3:2, V4:4, V5:3. Question 1 Part 1 of 3. 10 points. A block starts at rest and slides down a frictionless track except for a small rough area on a

University of Texas - PHY - 303K

practicework 07 BAUTISTA, ALDO Due: May 9 2006, 10:00 am Version number encoded for clicker entry: V1:1, V2:4, V3:2, V4:4, V5:3. Question 1 Part 1 of 1. 10 points. Two iron spheres, of mass m and 2 m, respectively, and equally spaced points r apart are sh

University of Texas - PHY - 303K

homework 03 HELD, ETHAN Due: Feb 6 2007, 4:00 am Question 1 part 1 of 2 10 points A descent vehicle landing on the moon has a vertical velocity toward the surface of the moon of 33 m/s. At the same time, it has a horizontal velocity of 55 m/s. At what spe

University of Texas - PHY - 303K

midterm 04 ALIBHAI, ZAHID Due: May 2 2007, 11:00 pm Question 1 part 1 of 1 10 points The diagrams below show dierent standing waves on a 49.5 cm string. Which of these waves has a 33 cm wavelength? 8. 1. correct17.2.9.3.4.5.6.Explanation: A stand

University of Texas - PHY - 303K

practice 02 ALIBHAI, ZAHID Due: Jan 28 2007, 4:00 am Question 1 part 1 of 2 10 points A person travels by car from one city to another. She drives for 31.2 min at 69.8 km/h, 8.5 min at 112 km/h, 47.4 min at 42.3 km/h, and spends 16.5 min along the way eat

University of Texas - PHY - 303K

Husain, Zeena Homework 13 Due: Apr 27 2004, 4:00 am Inst: Sonia Paban This print-out should have 22 questions. Multiple-choice questions may continue on the next column or page nd all choices before making your selection. The due time is Central time. 001

University of Texas - PHY - 303K

homework 02 BAUTISTA, ALDO Due: Jan 25 2006, 4:00 am Version number encoded for clicker entry: V1:1, V2:4, V3:2, V4:4, V5:3. Question 1 Part 1 of 1. 10 points. The graph below shows the velocity v as a function of time t for an object moving in a straight

University of Texas - PHY - 303K

homework 34 BAUTISTA, ALDO Due: Apr 24 2006, 4:00 am Version number encoded for clicker entry: V1:1, V2:4, V3:2, V4:4, V5:3. Question 1 Part 1 of 2. 10 points. A satellite with mass m is orbiting around the Earth on a circular path with a radius r. Denote

University of Texas - PHY - 303K

Shie, Gary Oldquiz 1 Due: Sep 13 2004, 1:00 pm Inst: Turner This print-out should have 26 questions. Multiple-choice questions may continue on the next column or page nd all choices before answering. The due time is Central time. 001 (part 1 of 1) 10 poin

University of Texas - PHY - 303K

Mechanics - Basic Physical ConceptsMathematicsb Quadratic Eq.: a x2 + b x + c = 0, x = b 2 a4 a c Cartesian and polar coordinates: y x = r cos , y = r sin , r 2 = x2 + y 2 , tan = x Trigonometry: cos cos + sin sin = cos( ) sin + sin = 2 sin + cos 2 2 2