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File: Dynamics Pdf 158015 | Chapter1
57 020 engr 2510 fluid mechanics class notes fall 2016 prepared by professor fred stern typed by stephanie schrader fall 1999 corrected by jun shao fall 2003 fall 2005 corrected ...

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                          57:020 (ENGR:2510) 
              
                         Fluid Mechanics  
                                           
              
                          Class Notes 
                                Fall 2016 
                                           
                                           
                                           
                                 Prepared by: 
                            Professor Fred Stern 
                                           
                     Typed by: Stephanie Schrader (Fall 1999) 
                   Corrected by: Jun Shao (Fall 2003, Fall 2005) 
                   Corrected by: Jun Shao, Tao Xing (Fall 2006) 
                Corrected by: Hyunse Yoon (Fall 2007 ∼ Fall 2016) 
                    Corrected by: Timur Kent Dogan (Fall 2014) 
             57:020 (ENGR:2510) Fluid Mechanics                                                                                       Chapter 1 
                                                                                 
             Professor Fred Stern    Fall 2016                   1 
                 CHAPTER 1: INTRODUCTION AND 
                             BASIC CONCEPTS 
              
             Fluids and the no-slip condition 
                 Fluid mechanics is the science and technology of flu-
             ids either at rest (fluid statics) or in motion (fluid dynamics) 
             and their effects on boundaries such as solid surfaces or in-
             terfaces with other fluids. 
             Definition of a fluid: A substance that deforms continuous-
             ly when subjected to a shear stress 
                 Consider a fluid between two parallel plates, which is 
             subjected to a shear stress due to the impulsive motion of 
             the upper plate 
                            u=U          No slip condition:  no relative 
                  Fluid                  motion between fluid and 
                 Element                 boundary, i.e., fluid in contact 
                             u=0         with lower plate is stationary, 
                   t=0                   whereas fluid in contact with 
                                         upper plate moves at speed U.  
                    τ                         Fluid deforms, i.e., un-
                                                              
                θ                        dergoes rate of strain θ due to 
                                         shear stress τ 
                   τ                      
                  t=∆t                    
              
              
                    57:020 (ENGR:2510) Fluid Mechanics                                                                                       Chapter 1 
                                                                                                                                     
                    Professor Fred Stern    Fall 2016                                                      2 
                    Newtonian fluid:                                                    
                                                     τ ∝θ = rate of strain
                                                        =       
                                                     τ      μθ
                                                    µ = coefficient of viscosity 
                     
                    Such behavior is different from solids, which resist shear 
                    by static deformation (up to elastic limit of material) 
                         τ 
                                                                    Elastic solid:  
                                             γ                                             τ ∝ γ = strain 
                                                                                          τ = G γ            
                                                                                          
                       Solid 
                      
                                     
                         τ                                                  G = shear modulus 
                        t=0                     t=∆t 
                     
                    Both liquids and gases behave as fluids  
                     
                    Liquids:  
                    Closely spaced molecules with large intermolecular forces 
                    Retain volume and take shape of container 
                     
                                                                                 container 
                     
                                                           liquid 
                     
                    Gases:           
                    Widely spaced molecules with small intermolecular forces 
                    Take volume and shape of container 
                     
                     
                                                            gas 
                                                             
            57:020 (ENGR:2510) Fluid Mechanics                                                                                       Chapter 1 
                                                                                
            Professor Fred Stern    Fall 2016                   3 
            Recall p-v-T diagram from thermodynamics: 
            single phase, two phase, triple point (point at which solid, 
            liquid, and vapor are all in equilibrium), critical point 
            (maximum pressure at which liquid and vapor are both in 
            equilibrium). 
             
            Liquids, gases, and two-phase liquid-vapor behave as flu-
            ids.       
             
             
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...Engr fluid mechanics class notes fall prepared by professor fred stern typed stephanie schrader corrected jun shao tao xing hyunse yoon timur kent dogan chapter introduction and basic concepts fluids the no slip condition is science technology of flu ids either at rest statics or in motion dynamics their effects on boundaries such as solid surfaces terfaces with other definition a substance that deforms continuous ly when subjected to shear stress consider between two parallel plates which due impulsive upper plate u relative element boundary i e contact lower stationary t whereas moves speed un dergoes rate strain newtonian coefficient viscosity behavior different from solids resist static deformation up elastic limit material g modulus both liquids gases behave closely spaced molecules large intermolecular forces retain volume take shape container liquid widely small gas recall p v diagram thermodynamics single phase triple point vapor are all equilibrium critical maximum pressure...

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