{"id":6535,"date":"2019-12-14T16:43:55","date_gmt":"2019-12-14T16:43:55","guid":{"rendered":"https:\/\/www.inspirenignite.com\/vtu\/mechanics-of-fluids-aero-3rd-sem-syllabus-for-vtu-be-2017-scheme\/"},"modified":"2019-12-14T16:43:55","modified_gmt":"2019-12-14T16:43:55","slug":"mechanics-of-fluids-aero-3rd-sem-syllabus-for-vtu-be-2017-scheme","status":"publish","type":"post","link":"https:\/\/www.inspirenignite.com\/vtu\/mechanics-of-fluids-aero-3rd-sem-syllabus-for-vtu-be-2017-scheme\/","title":{"rendered":"Mechanics of Fluids Aero 3rd Sem Syllabus for VTU BE 2017 Scheme"},"content":{"rendered":"

Mechanics of Fluids detail syllabus for Aeronautical Engineering (Aero), 2017 scheme is taken from VTU<\/a> official website and presented for VTU students. The course code (17AE35), and for exam duration, Teaching Hr\/week, Practical Hr\/week, Total Marks, internal marks, theory marks, duration and credits do visit complete sem subjects post given below.<\/p>\n

For all other aero 3rd sem syllabus for be 2017 scheme vtu you can visit Aero 3rd Sem syllabus for BE 2017 Scheme VTU Subjects<\/a>. The detail syllabus for mechanics of fluids is as follows.<\/p>\n

Course Objectives:<\/h4>\n

This course will enable students to<\/p>\n

    \n
  1. Understand the basic fluid properties.<\/li>\n
  2. Understand the governing laws of fluid flow.<\/li>\n
  3. Acquire the knowledge of types of fluid flows.<\/li>\n<\/ol>\n

    Module 1 <\/h4>\n

    For complete syllabus and results, class timetable and more pls download iStudy<\/a>. Its a light weight, easy to use, no images, no pdfs platform to make students life easier.<\/p>\n

    Module 2 <\/h4>\n

    Fluids in motion: Methods of describing fluid motion, types of fluid flow, continuity equation in 3 dimensions, velocity potential function and stream function. Types of motion, Source sink, doublet, plotting of stream lines and potential lines Numerical problems. Fluid Kinematics: Kinematics of fluid motion and the constitutive equations, Integral (global) form of conservation equations (mass, momentum, energy) and applications, Differential form of conservation equations (continuity, Navier-Stokes equations, energy equation).\t\t\t\t<\/p>\n

    Module 3 <\/h4>\n

    Fluid Dynamics: Equations of motion: Euler’s and Bernoulli’s equation of motion for ideal and real fluids. Momentum equation, Fluid flow measurements. Numerical problems.\t\t\t\t<\/p>\n

    Dimensional analysis and similarity: Dimensional homogeneity, methods of dimensional analysis, model analysis, types of similarity and similitude. Dimensionless numbers. Model laws. Numerical problems.\t\t<\/p>\n

    Module 4 <\/h4>\n

    For complete syllabus and results, class timetable and more pls download iStudy<\/a>. Its a light weight, easy to use, no images, no pdfs platform to make students life easier.<\/p>\n

    Module 5 <\/h4>\n

    Compressible flow and Boundary Layers theory: Steady, one-dimensional gas dynamics, Propagation of pressure waves in a compressible medium, velocity of sound, Mach number, Mach cone, Stagnation properties, Bernoulli’s eqn for isentropic flow, normal shock waves. Numerical Problem; Laminar and turbulent boundary layers.\t<\/p>\n

    .\n<\/p>\n

    Course Outcomes:<\/h4>\n

    After studying this course, students will be able to:<\/p>\n

      \n
    1. Evaluate the effect of fluid properties.<\/li>\n
    2. Apply the governing laws of fluid flow.<\/li>\n
    3. Classify different types of fluid flows.<\/li>\n<\/ol>\n

      Graduate Attributes (as per NBA):<\/h4>\n