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?

Someone is here who will provide course template of Mechanics of Solids and Fluids (AML150) offering at Indian Institute of Technology Delhi (IITD)?

[pooja]

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