Register now to access 7 million high quality study materials (What's Course Hero?) Course Hero is the premier provider of high quality online educational resources. With millions of study documents, online tutors, digital flashcards and free courseware, Course Hero is helping students learn more efficiently and effectively. Whether you're interested in exploring new subjects or mastering key topics for your next exam, Course Hero has the tools you need to achieve your goals.
3 Pages
AppleShare
Course: BIO 03442, Fall 2009School: Carnegie Mellon
Rating:
Word Count: 336
Document Preview
Mellon Carnegie University INTER-OFFICE CORRESPONDENCE To: From: Date: Subject: Molecular Biology of Eukaryotes Students. Dr. Woolford. Monday, August 20, 2000 Accessing 03-442 course materials via AppleShare. Material relevant to Molecular Biology of Eukaryotes (03-442) is being stored on a file server maintained by the Department of Biological Sciences. You may access this material in the following way: 1....
Unformatted Document Excerpt
Coursehero >> Pennsylvania >> Carnegie Mellon >> BIO 03442Course Hero has millions of student submitted documents similar to the one
below including study guides, practice problems, reference materials, practice exams, textbook help and tutor support.
Course Hero has millions of student submitted documents similar to the one
below including study guides, practice problems, reference materials, practice exams, textbook help and tutor support.
Mellon Carnegie University INTER-OFFICE CORRESPONDENCE To: From: Date: Subject: Molecular Biology of Eukaryotes Students. Dr. Woolford. Monday, August 20, 2000 Accessing 03-442 course materials via AppleShare.
Material relevant to Molecular Biology of Eukaryotes (03-442) is being stored on a file server maintained by the Department of Biological Sciences. You may access this material in the following way: 1. Obtain the use of a Macintosh computer with a System running MacOS version 7.0 or newer. Select Chooser under the Apple ( ) menu. Select the AppleShare icon and then the Mellon zone. You should see listed a file server named BioServer. Select the BioServer file server by double clicking its name or single clicking on its name and single clicking the OK button. You should see a dialog window in which you should enter the following information: Enter in User Name: euks Enter in Password: 03442 Click on the OK button. You should see listed a volume named FileServ. Select this volume in a manner similar to selecting the BioServer file by server either double or single clicking. Close the Chooser window by clicking on its window close box (top, left corner). A disk icon should appear on your desktop with the name FileServ. Open the volume by double clicking on its icon.
2. 3. 4.
5. 6. 7.
9.
10. From the choice of aliases (italicized items), select and open the title for your course. Alternatively, you may open the folder 0344 from within the Courses folder. 2 In this folder you will find material relevant to this course. Copy this material to your Macintosh startup volume by clicking and dragging the relevant icons to your startup disk icon; y...
Find millions of documents on Course Hero - Study Guides, Lecture Notes, Reference Materials, Practice Exams and more.
Course Hero has millions of course specific materials providing students with the best way to expand
their education.
Below is a small sample set of documents:
Below is a small sample set of documents:
Carnegie Mellon - BIO - 03442
Carnegie Mellon University INTER-OFFICE CORRESPONDENCE To: From: Date: Subject: Molecular Biology of Eukaryotes Students. Dr. Woolford. Monday, August 20, 20000. Accessing 03-442 course materials via FTP.Material relevant to Molecular Biology of Eu
Carnegie Mellon - BIO - 03442
MOLECULAR BIOLOGY OF EUKARYOTES , Fall 2000 03-442, 03-742 Lectures 03-742 Advanced Discussion Section MWF 9:30-10:20 a.m., 6423 Wean Hall Time and place to be announcedJohn Woolford 616-618 Mellon Institute 268-3412, 268-3193 jw17@andrew.cmu.edu I
Carnegie Mellon - BIO - 03124
INTER-OFFICE CORRESPONDENCE To: From: Date: Subject: 03-124 Students. Prof. Vartikar. Thursday, January 21, 1999. Accessing 03-124 course materials.Material relevant to 03-124 is being stored on a file server maintained by the Department of Biologi
N.C. State - MA - 747
MA/ST 747, Spring 2009 Homework 3 Due: In-class, Tuesday, March 101. Show that the map X E(X|F) is a contraction in Lp , 1 p < : that is show |E(X|F)|p |X|p .- - 2. Show for (Xn ) a martingale, (Xn ) is submartingale, but for (Xn ) a submarting
N.C. State - MA - 580
MA580 Homework 9 (due 1 April in class)1. (10 points) Let A be a complex n n matrix with minimal polynomial m q(x) = j=0 j xj , where m n and m = 1. Show: If A is non-singular then 0 = 0. 2. (10 points) Let A= 0 1 0 . . . . 1 0 be a n
N.C. State - MA - 747
MA/ST 747, Spring 2009 Homework 1 Due: In-class, Thursday, Jan. 291. In class we saw/will see that for proving P (|X| n) E|X| 1 +n=1 n=1P (|X| n),we got to the point where the above was shown, except with the expressionnP (n ),n=0
N.C. State - MA - 731
Math 731 Project 3 Due Tuesday, March 31 (1) Consider the system x(t) = Ax(t) + Bu(t) y(t) = Cx(t) with the cost function J= 1 1 [Cx(tf ) - r(tf )]T f [Cx(tf ) - r(tf )] + 2 2tf 0[Cx(t) - r(t)]T Q[Cx(t) - r(t)] + u(t)T Ru(t) dtwhere f 0, Q 0
N.C. State - MA - 531
Math 531 Project 6 Due Friday, December 5 (1) Problem 4.9 (2) Problem 4.11 (a)-(d) (3) Problem 4.27. This problem is based on Problem 1.20 which you investigated in Project 1. Note that you can use r = 0 throughout the problem. Also, try some dierent
N.C. State - MA - 531
Math 531 Project 1 Due Tuesday, September 2 (1a) Problem 1.1a. Note that q1 = x1 , q2 = x2 and that the kinetic and potential energies are given by T (q, q) = W (q) = 1 M1 x2 + M2 x2 1 2 21 K1 x2 + K(x1 x2 )2 + K2 x2 . 1 2 2(b) Consider the two
N.C. State - MA - 531
Math 531 Project 5 Due Thursday, November 13 (1) Consider the system x = Ax + Bu y = Cx + Du where 3 6 4 6 10 A= 9 7 7 9 2/3 1/3 B = 1/3 2/3 1/3 1/3C=123 336D = 0.(a) Show that the system is not controllable and use a QR decomp
N.C. State - MA - 531
Math 531 Project 2 Due Thursday, September 18 (1) Problem 2.2 (2) Problem 2.16 (Additionally, nd similarity transforms and check with Matlab) (3) Problem 2.20 (4) Problem 2.21
Carnegie Mellon - BIO - 03310
Carnegie Mellon - BIO - 03310
Carnegie Mellon - BIO - 03310
<?xml version="1.0" encoding="UTF-8"?><Error><Code>InternalError</Code><Message>We encountered an internal error. Please try again.</Message><RequestId>2D4AA2616F7826F8</RequestId><HostId>sk3aNvlLPWwY3+fUz8918hAn3JLvyJrysuGb1m3yiTQu1AwMtFyGErq9cqAvg
Carnegie Mellon - BIO - 03310
Computational Biology, Part 4 Protein Coding RegionsRobert F. Murphy Copyright 1996-2001. All rights reserved.Sequence Analysis Tasks Calculating the probability of finding asequence pattern Calculating the probability of finding aregion wit
Carnegie Mellon - BIO - 03310
Computational Biology, Part 13 Spreadsheet Basics IIRobert F. Murphy Copyright 1996, 1999, 2000, 2001. All rights reserved.RecalculationsWhen a cell value is changed, what determines whether other cells are recalculated? There are two options:
Carnegie Mellon - BIO - 03310
Computational Biology, Part 14 Recursion RelationsRobert F. Murphy Copyright 1996, 1999, 2000, 2001. All rights reserved.Illustration from Population Dynamics (after Segel)sConsider a species of insect that hatches in the spring, lays eggs in
Carnegie Mellon - BIO - 03310
Computational Biology, Part 16 Biochemical Kinetics IIRobert F. Murphy Copyright 1996, 1999, 2000, 2001. All rights reserved.Numerical integrationsThe simplest numerical integration method is Euler's method. It simply converts each differentia
Carnegie Mellon - BIO - 03310
Computational Biology, Part 21 Biological Imaging IG. Steven Vanni Robert F. Murphy Copyright 1998, 2000, 2001. All rights reserved.Biological imagingssSignificant advances in the fields of optics and electronics in the past two decades have
Carnegie Mellon - BIO - 03310
Computational Biology, Part 22 Biological Imaging IIRobert F. Murphy Copyright 1996, 1999, 2000. All rights reserved.Image DisplaysOperations that change display without changing imagex LUT - grayscale or color x Contrast stretchingsOpera
Carnegie Mellon - BIO - 03310
Computational Biology, Part E Basic Principles of Computer GraphicsRobert F. Murphy Copyright 1996, 1999, 2000, 2001. All rights reserved.2D Coordinate SystemssBasic 2D Graphics Goal: Display an object or a set of objects which are defined in
Carnegie Mellon - BIO - 03310
Computational Biology, Part G Representing Distributions using Fourier TransformsG. Steven Vanni & Robert F. Murphy Copyright 1998, 2000, 2001. All rights reserved.Frequency representationAny signal may be represented as the sum of many sinusoid
Carnegie Mellon - BIO - 03310
k1= km1= k2= km2= timestep= t 0 0.25 0.5 0.75 1 1.25 1.5 1.75 2 2.25 2.5 2.75 3 3.25 3.5 3.75 4 4.25 4.5 4.75 5 5.25 5.5 5.75 6 6.25 6.5 6.75 7 7.25 7.5 7.75 8 8.25 8.5 8.75 9 9.25 9.5 9.75 10 10.25 10.5 10.75 11 11.25 11.5 11.75 12 12.25 12.5 A0.1
Carnegie Mellon - BIO - 03121
Carnegie Mellon - BIO - 03510
Carnegie Mellon - BIO - 03510
CC CC REBASE version 904 bairoch.904CC CC =-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=CC REBASE, The Restriction Enzyme Database http:/rebase.neb.comCC Copyright (c) Dr
Carnegie Mellon - BIO - 03438
What magnitude is the extinction coefficient at lamda-max for typical absorbing biomolecules such as ATP or tryptophan. Include units. What usually limits spectrophotometers from accurately measuring very high absorbances? A percent transmission of 1
Carnegie Mellon - BIO - 03438
PBCProblem Set 7 - Chemical CatalysisDue: Dec. 7, 2000Readings for chemical catalysis: Chapter in the Enzymes (handout) Fersht - Chapter 2, section B on Principles of Catalysis Fresht - Chapter 12, section B on Utilization of binding energy in
Carnegie Mellon - BIO - 03345
INTER-OFFICE CORRESPONDENCE To: From: Date: Subject: 03-345 Students. Linda Kauffman. Thursday, January 14, 1999. Accessing 03-345 course materials.Material relevant to 03-345 is being stored on a Macintosh AppleShare file server maintained by the
Carnegie Mellon - BIO - 03310
03510 Example Final ExamName: _SAVE ALL FILES FIRST TO YOUR LOCAL HARD DRIVE AND THEN DRAG A COPY TO THE DROPBOX ON THE BIOSERVER. YOU WILL RECEIVE NO CREDIT FOR A QUESTION IF THE FILENAMING CONVENTION IS NOT FOLLOWED EXACTLY. KEEP COPIES OF ALL