57 020 Mechanics of Fluids and Transfer Processes Spring 2005 9 30 10 20 AM M W F 2217SC Instructor Professor Jacob Odgaard Office Hours 4115 SC 10 30 11 10 a m MWF 306 HL by appointment 5 5213 jacob odgaard uiowa edu Course Objectives This is a first course in fluid mechanics It provides an introduction to basic concepts in fluid statics kinematics and dynamics All of which apply to diverse aspects of engineering and in many respects life itself This course provides the requisite material for many other fluids hydraulics and heat transfer courses in the Biomedical Civil Environmental Chemical and Mechanical Engineering programs Control volume principles are developed and used to demonstrate applications to simple flow systems in engineering to determine flow rates and forces and energy losses and power requirements Regular homework assignments are made Laboratory experiments are an integral part of the course They reinforce theory and its practical applications and introduce methods of fluid flow measurement and data analysis The experiments are conducted in teams with each member writing a separate report Text Engineering Fluid Mechanics Crowe Roberson Elger John Wiley and Sons 7th ed 2001 References On two hour reserve in Engineering Library Introduction to Fluid Mechanics Janna Brookes Cole Fluid Mechanics Streeter Wylie McGraw Hill Mechanics of Fluids Shames McGraw Hill Life in Moving Fluids Vogel Course related web addresses Syllabus course notes homework solutions http css engineering uiowa edu fluidslab flcourses 57020 Laboratory Experiments http css engineering uiowa edu cfd physexp handouts html Numerical simulations http css engineering uiowa edu cfd numsim handouts html Homework 1 Homework problems are assigned MWF are due WFM and will be returned FMW respectively Late submission will not be accepted without a legitimate reason explained in writing at the time of submission 2 Pre selected homework problems are graded Note Additional graded problems may be given Students are strongly encouraged to work all assigned homework problems some of which may appear on examinations 1 3 Homework solutions should be prepared in the following format Name Problem statement Relevant figure drawn or sketched neatly to scale Formulas used numerical values units Details of the work Results expressed to appropriate precision and in appropriate stated units 4 Solutions will be posted in the Engineering Library soon after the problems have been graded Consult these to correct your solutions for future reference 5 A Teaching Assistant will grade homework problems The instructor Prof Odgaard should be consulted in case of difficulty in solution of problems or questions concerning grading 6 Each problem will be graded on the basis of 10 points Homework accounts for 20 of the final grade Laboratories 1 Experiments are an important part of this course Each student must participate fully in the conduct of these experiments and in the compilation and analysis of results Experiments are conducted in teams and team effort is encouraged in the conduct of experiments and analysis of results However each student must prepare an independent lab report 2 The experiments are performed in the Fluids Laboratory an instructional facility distributed within IIHRHydroscience Engineering s formerly Iowa Institute of Hydraulic Research research areas Three physical experiments and two numerical simulation experiments will be conducted in two sessions Each student will be assigned a team on the basis of alphabetical order in the first class list for each section If students wish to form a different team the instructor must be notified no later than the beginning of the second week of classes 3 Consult the LABORATORY SCHEDULE for the dates on which your team will perform the experiments Deadlines for the submission of lab reports are indicated on the class schedule 4 More detailed instructions on laboratory procedures and reports will be provided during the Laboratory Procedures classes and the lab sessions Examinations 1 There will be two 50 minute and one 120 minute FINAL examinations on the dates shown on the class schedule 2 All exams are closed notes and books A formula sheet will be made available 3 Exams may include standard problems as well as multiple choice and true false questions Examinations may include problems previously assigned for homework Grading 2 The final course grade will be based on the total points earned during the semester The distribution of points is as follows Two in semester exams counted at 10 each Final examination 30 4 lab reports 7 5 each Homework problems 20 TOTAL 3 20 30 30 20 100 points 57 020 Course Schedule Spring 2005 Text Engineering Fluid Mechanics Crowe Roberson Elger 7th Edition Class Date Section in Textbook Lab Activity 1 Jan 19 1 1 1 5 2 21 2 1 2 6 3 24 2 7 2 8 25 No class 4 26 3 1 3 2 3 4 5 28 3 5 6 31 3 6 Feb 1 EFD General Lecture Fluids Lab Classroom SHL 7 2 3 7 8 4 3 7 continued 9 7 3 7 continued 8 No class 10 9 Review 11 11 4 1 4 2 12 14 4 3 4 4 15 Lab 1 Measurement of Kinematic Viscosity Report due Mar 1 13 16 4 5 14 18 4 6 4 7 15 21 5 1 5 2 22 No class 16 23 5 3 17 25 5 4 5 5 18 28 5 6 Mar 1 No class 19 2 Review for Exam 1 20 4 EXAM 1 Chapters 1 5 21 7 6 1 6 2 8 Lab 2 Measurement of Pipe Friction and Velocity Profile Report due Mar 26 22 9 Continue 6 2 23 11 6 3 4 Spring Break 24 21 7 1 7 2 22 Lab 3 Measurement of Pressure Distribution and Lift on Airfoil Rep due Apr 6 25 23 7 3 7 4 26 25 8 1 8 4 27 28 8 5 8 7 29 CFD Lecture by Tao Xing 28 30 8 8 8 10 29 Apr 1 Review for Exam 2 30 4 EXAM 2 Chapters 6 8 5 Prelab CFD 1 Pipe Flow 31 6 9 1 9 2 32 8 9 3 9 4 33 11 9 5 12 CFD 1 Measurement of Pipe Friction and Velocity Distribution Rep due Apr 19 34 13 9 5 9 6 35 15 10 1 10 2 36 18 10 3 10 4 19 CFD 2 Measurement of Pressure Distribution and Lift on Airfoil Rep Apr 26 37 20 10 5 38 22 10 6 39 25 11 1 11 3 26 No class 40 27 11 4 11 5 41 29 11 6 11 8 42 May 2 Special Topics 3 No class 43 4 Review for Final Exam 44 6 Review for Final Exam Final Examination Wednesday May 11 2005 12 00 PM to 2 00 PM in Room 2217SC 5 57 020 Laboratory Schedule Section 11 12 11 12 Teams Time 1 2 3 4 5 6 10 30 to 12 20 12 30 to 2 20 2 30 to 4 20 Day Tuesday Tuesday Tuesday Experiments Lab 1 Lab 2 Lab 3 Measurement of Kinematic Viscosity Measurement of Pipe Friction and Velocity Distribution Measurement of Pressure Distribution and Lift for an …
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