IOE_MECHANICAL_ENGINEERING

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Electrical Machines

Electrical Machines <--- click here to download subject material FEEL FREE TO PROVIDE US FEEDBACK IN COMMENTS ! Course Objectives: To impart knowledge on constructional details, operating principle and performance of Transformers, DC Machines, 1-phase and 3-phase Induction Machines, 3-phase Synchronous Machines and Fractional Kilowatt Motors. Magnetic Circuits and Induction (4 hours) Magnetic Circuits Ohm’s Law for Magnetic Circuits Series and Parallel magnetic circuits Core with air gap B-H relationship (Magnetization Characteristics) Hysteresis with DC and AC excitation Hysteresis Loss and Eddy Current Loss Faraday’s Law of Electromagnetic Induction, Statically and Dynamically Induced EMF Force on Current Carrying Conductor Transformer (8 hours) Constructional Details, recent trends Working principle and EMF equation Ideal Transformer No load and load Operation Operation of Transformer wi...

Instrumentation and Measurement

Instrumentation and Measurement <--- click here to download subject material FEEL FREE TO PROVIDE US FEEDBACK IN COMMENTS ! Course Objective: To be familiar with mechanical Measurement System. To model am analyze the response of different sensors and systems. Fundamentals of Measurement (3 hours) Fundamental Methods of Measurements The Generalized Measurement System Calibration Concepts Measurement Errors Time Dependent Properties of Signal (3 hours) Types of Measurement Signals Harmonic Signals Periodic Signals and Fourier Series Representation Determination of Fourier Coefficients: Analytical, Numerical and FFT Methods Static Characteristics of Measurement System (4 hours) Introduction Accuracy and Precision, Tolerance, Range or Span, Linearity, Sensitivity of measurement, Threshold, Resolution, Sensitivity to disturbance, Hysteresis effects, Dead space Dynamic Response of Measur...

Fluid Mechanics

FLUID MECHANICS FEEL FREE TO PROVIDE US FEEDBACK IN COMMENTS ! Course Objectives: To provide basic concept of fluid mechanics and its application for solving basic engineering problems. Definition and Analysis method (2 hours ) Definition and Properties of a Fluid Analysis Method System and Control Volume, Differential vs Integral Approach, Description – Lagrangian and Eulerian Fluid Statics (3 hours) Pressure Intensity at a Point Pressure Variations in a Fluid Unite of Pressure Absolute and Gage Pressure Manometers Forces on Plane and Curve Surface Buoyancy and Stability Kinematics of Fluid Flow (5 hours) Description of Fluid Flow: 1D, 2D and 3D Flow Circulation and Vorticity Rotational and Irrotational Flow Equation of Stream Line Velocity Potential Stream Function Acceleration of a Fluid Particle Basic Equations for Fluid Flow (8 hours) Continuity Equations Rectangular and Cylin...

STRENGTH OF MATERIAL

Strength of Materials FEEL FREE TO PROVIDE US FEEDBACK IN COMMENTS ! Course Objective: To analyze and solve problems related to different types of stress and strain and to design basic components of structure and machines on the basis of stiffness, strength and stability. Introduction (2 hours) Types of Stresses and strains Normal stress, shear stress, bearing stress Normal strain, shear strain Ultimate stress, allowable stress, factor of safety Stress and strain – axial load (6 hours) Stress – strain diagram Hooke's law, modulus of elasticity Deformation under axial load Temperature effects Poisson’s Ratio Multi-axial loading, Generalized Hooke’s Law Bulk Modulus Shearing Strain Relationship among modulus of elasticity, shear stress and Poisson’s ratio Stress Concentration and Plastic Deformation Statically Indeterminate problems Pure Bending (5 hours) Introduction of pu...