#1
6th May 2015, 11:08 AM
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Aml 150 iitd
Give me syllabus of AML150: Mechanics of Solids and Fluids offers by IIT Delhi. Can I get this syllabus from the official website of IITD? Can I get previous years question papers of the following subject also from its official website? Provide contact address of department which taught AML150: Mechanics of Solids and Fluids Subject at IITD?
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#2
29th May 2018, 10:30 AM
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Re: Aml 150 iitd
Someone is here who will provide course template of Mechanics of Solids and Fluids (AML150) offering at Indian Institute of Technology Delhi (IITD)?
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#3
29th May 2018, 10:31 AM
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Re: Aml 150 iitd
As you are looking for course structure of Mechanics of Solids and Fluids (AML150) offering by Indian Institute of Technology Delhi (IITD), so here is course template: Mechanics of Solids and Fluids (AML150) Course Templete: Department/Centre Applied Mechanics Course Title Mechanics of Solids and Fluids Course No. AML 150 L-T-P structure 3-1-2 Credits 5 Status of the course Elective/Core for UG Programs Prerequisite for the course AML110 Overlap with any UG/PG AML140, AML160, AML170, Course of the Dept./Centre AML180, AMP262 Overlap with any UG/PG CHL231, CHL204 Course of other Dept./Centre Supercedes any existing course No Not allowed For NIL Frequency of offering Both/Either Semester Faculty will teach the course All Solid/Fluid Mechanics Faculty. Will the course require visiting faculty No Course Content: I. Fluid Mechanics MATHEMATICAL PRELIMINARIES: Cartesian Tensors, Index Notation, Integral Theorems. INTRODUCTION: Basic Concepts and Definitions, Solids and Fluids, Internal and external forces on a fluid element. PROPERTIES OF FLUID: Rheological Equation and Classification of fluids, Normal and Shear Stresses, Concept of Pressure, pressure gradient. STATICS OF FLUIDS: Types of Forces on Fluid Element, Mechanics of Fluid at Rest and in rigid body motion, Manometry, forces on fully and partially submerged bodies, stability of a floating body. KINEMATICS OF FLUID MOTION: Types of fluid motion, Stream lines, Streak and path lines, Acceleration and Rotation of a fluid particle, Vorticity and Circulation, Stream Function, Irrotational flow and Velocity Potential function. DYNAMICS OF AN IDEAL FLUID: Continuity and Eulers Equations of Motion, Bernoulli Equation, Applications to Flow Measurement and other real flow problems. MECHANICS OF VISCOUS FLOW: Navier-Stokes equations, exact solutions, Laminar flow through a pipe, Turbulent flow through a pipe, Friction factor, Applications to Pipe Networks. DIMENSIONAL ANALYSIS: Similarity of motion, Dimensionless numbers, Modeling of fluid flows, Applications. INTEGRAL ANALYSIS: Reynolds Transport Theorem, Control Volume Analysis. II. Solid Mechanics: State of stress at a point, equations of motion, principal stress, maximum shear stress. Concept of strain, strain displacement relations, compatibility conditions, principal strains, transformation of stress/strain tensor, state of plane stress/strain. Constitutive relations, uniaxial tension test, idealized stress-strain diagrams, isotropic linear elastic and elasto-plastic materials. Energy Methods. Uniaxial stress and strain analysis of bars, thermal stresses, Torsion, Bending, Stability of Equilibrium Lecture Outline (with topics and number of lectures): Topic No. of Hours State of stress at a point, equations of motion, principal stress, maximum shear stress. 4 Concept of strain, strain displacement relations, compatibility conditions, principal strains, transformation of stress/strain tensor, state of plane stress/strain. 3 Constitutive relations, uniaxial tension test, idealized stress-strain diagrams, isotropic linear elastic and elasto-plastic materials. 3 Energy Methods. 2 Uniaxial stress and strain analysis of bars, thermal stresses. 2 Torsion of circular bars and thin walled members 3 Bending of straight/curves beams, transverse shear stresses, deflection of beams 3 Buckling of columns 1 Introduction to Properties of Fluids 2 Statics of Fluids 4 Kinematics of Fluid Motion 3 Dynamics of Ideal Fluids 4 Mechanics of Viscous Flow 4 Dimensional Analysis 2 Integral Analysis: Reynolds Transport Theorem, Control Volume Analysis. 2 Course Total 42 Brief description of laboratory activities: The following experiments will be conducted to reinforce/augment the concepts of solid and fluid mechanics Experiment Description Hours Stress-Strain curve using standard tension specimen 4 Brinell and Rockwell hardness tests 2 Izod and Charpy impact tests 2 Strain measurement using electrical resistance strain gauges 2 Compression and Buckling tests 2 Torsion tests on standard steel specimen 2 Flow Visualization. 4 Conservation of Mechanical Energy (Bernoulli’s Principle) 2 Performance Characteristics of Free Jets 2 Obstruction Type of Flow Meters. 2 Principle of Linear Momentum. 2 Fully Developed Flow through Pipes. 2 Total 28 |
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