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About Mechanical Engineering About Mechanical Engineering
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Math 1 :

Math 2 :

  • Infinite Sequences and Series
  • Polar Coordinates
  • Vectors in Space
  • Vector-Valued Functions
  • Multivariable Functions and Partial Derivatives
  • Multiple Integrals

Physic 1 :

Physic 2 :

  • Coulomb’s Law and Electric Field
  • Gauss’s Law
  • Electric Potential
  • Capacitance
  • Electrostatic Energy and Properties of Insulators
  • Current and Resistance
  • AC Circuits
  • Magnetic Field
  • Sources of Magnetic Fields
  • Faraday’s Law
  • Inductance
  • Maxwell’s Equations and Electromagnetic Waves
 
  • Matter: Properties and Measurement
  • Atoms and Atomic Theory
  • Electron Structure of the Atom
  • Periodic Table and Atomic Properties
  • Chemical Compounds
  • Chemical Reactions
  • Introduction to Aqueous Solution Reactions
  • Gases
  • Thermochemistry
  • Chemical Bonds (Basic Concepts and Bond Theories)
  • Intermolecular Forces: Liquids and Solids
  • Solutions and Physical Properties
  • Chemical Equilibrium and Principles
  • Acids and Bases
  • Spontaneous Change: Entropy and Gibbs Energy

Technical Drawing

  • Importance of Design in Engineering
  • Definition of Design
  • Design Tools
  • Technical Drawing
  • Meaning of Lines
  • Technical Writing
  • Dimensioning Basics
  • Projection Principles
  • Drawing Views
  • Sectional Views
  • Perspective Drawings
  • Surface Finish Symbols
  • Machine Materials Symbols
  • Machine Assembly Drawing
  • Drawing of Fasteners
  • Welding Symbols
  • Dimensional Tolerances
  • Geometric Tolerances

Comput.Aided Technical Drawing

  • Introduction to Computer-Aided Drafting
  • Basic Drawing Functions and Views
  • Sectional Views
  • General Concepts of 3D Modeling
  • Creating Parts and Solid Modeling in 3D Design
  • Drawing Views from 3D Parts
  • Assembly Modeling and Assembly of Parts
  • Surface Modeling
  • Matrices and Systems of Equations
  • Linear Equation Systems
  • Row-Echelon Form
  • Matrix Algebra
  • Elementary Matrices
  • Determinants
  • Determinant of a Matrix
  • Properties of Determinants
  • Cramer’s Rule
  • Vector Spaces
  • Definition of Vector Spaces
  • Subspaces
  • Linear Independence
  • Basis and Dimension
  • Change of Basis
  • Row Space and Column Space
  • Linear Transformations
  • Matrix Representation of Linear Transformations
  • Orthogonality
  • Scalar Product
  • Orthogonal Subspaces
  • Inner Product Spaces
  • Orthogonal Sets
  • Gram-Schmidt Process
  • Eigenvalues and Eigenvectors
  • Diagonalization
  • General Principles
  • Vectors and Forces
  • Moment of a Force About an Axis
  • Equilibrium of Rigid Bodies
  • Center of Gravity
  • Moments of Inertia of Areas and Masses
  • Calculation and Diagrams of Shear Forces and Bending Moments in Beams
  • Truss Systems
  • Frames and Machines
  • Friction
  • Introduction to Programming in C
  • Basic Syntax and Structure
  • Data Types and Variables
  • Operators and Expressions
  • Control Flow (Conditionals and Loops)
  • Functions and Modular Programming
  • Arrays and Strings
  • Pointers and Memory Management
  • Structures and Unions
  • File I/O (Input/Output)
  • Dynamic Memory Allocation
  • Error Handling and Debugging
  • Advanced Topics (e.g., Recursion, Linked Lists)
  • Practical Applications and Projects
  • Importance of Differential Equations in Engineering
  • Classification of Differential Equations
  • First-Order Differential Equations
  • Second-Order Linear Differential Equations
  • Higher-Order Linear Differential Equations
  • Laplace Transforms
  • First-Order Linear Systems of Equations
  • Engineering Applications
  • Introduction to Dynamics
  • Kinematics of Particles
  • Kinetics of Particles
  • Work and Energy Methods
  • Momentum and Impulse
  • Kinematics of Rigid Bodies
  • Kinetics of Rigid Bodies
  • Vibrations and Oscillations
  • Dynamics of Rotational Motion
  • Applications to Mechanical Systems
  • Analysis of Dynamic Systems
  • Impact and Collision Analysis

Strength of Materials 1 :

  • Introduction to Strength of Materials
  • Stress and Strain Analysis
  • Axial Loading and Deformation
  • Shear and Normal Stresses
  • Torsion of Circular Shafts
  • Bending of Beams
  • Shear and Bending Moment Diagrams
  • Stress Transformation and Mohr’s Circle
  • Thermal Stresses
  • Strain Energy and Elasticity

Strength of Materials 2 :

  • Advanced Topics in Beam Bending
  • Combined Loading
  • Deflection of Beams and Shafts
  • Column Buckling and Stability
  • Thin-Walled Sections
  • Stress Concentrations
  • Fatigue and Fracture Mechanics
  • Nonlinear Material Behavior
  • Plastic Deformation and Yield Criteria
  • Design for Strength and Safety
  • Atomic-Level Properties of Materials
  • Crystal Structure and Defects
  • Diffusion Mechanisms and Effects
  • Fundamentals of Fatigue, Fracture, and Creep
  • Tensile Behavior of Metallic Materials
  • Phase Diagrams and Calculations
  • Heat Treatment Processes
  • Analysis of the Fe-C System
  • Applications in Steel Material Engineering

Thermodynamics 1 :

  • Introduction to Thermodynamics
  • Basic Concepts and Definitions
  • Properties of Pure Substances
  • Energy Transfer by Heat, Work, and Mass
  • First Law of Thermodynamics
  • Energy Analysis of Closed Systems
  • Energy Analysis of Control Volumes
  • Second Law of Thermodynamics
  • Entropy
  • Exergy (Availability) and Exergy Analysis

Thermodynamics 2 :

  • Gas Power Cycles
  • Vapor and Combined Power Cycles
  • Refrigeration Cycles
  • Thermodynamic Property Relations
  • Gas Mixtures
  • Psychrometrics
  • Chemical Reactions and Combustion
  • Chemical and Phase Equilibrium
  • Compressible Flow

 

  • Introduction to Electrical and Electronic Engineering
  • Basic Electrical Concepts
  • DC Circuits
  • AC Circuits
  • Circuit Theorems
  • Semiconductors and Diodes
  • Transistors and Amplifiers
  • Operational Amplifiers (Op-Amps)
  • Digital Logic Circuits
  • Power Electronics
  • Electric Machines and Power Systems
  • Introduction to Control Systems
  • Electromagnetic Fields and Waves
  • Sensors and Instrumentation

 

  • Fundamentals of Engineering Materials
  • Atomic Structure and Interatomic Bonding
  • Crystal Structure of Metals
  • Metal Solid Solution
  • Solid Diffusion
  • Crystal Imperfection
  • Mechanical Properties of Metals
  • Iron Carbon Diagrams
  • Production of Iron and Steel
  • Ferrous Metals
  • Heat Treatment
  • Corrosion
  • Non-Ferrous Metals
  • Polymers
  • Ceramic Materials
  • Composite Materials
  • Metallurgy
  • Introduction to Numerical Methods
  • Solutions of Nonlinear Equations in One Variable
  • Solutions of Systems of Nonlinear Equations
  • Numerical Solution Methods for Systems of Linear Equations
  • Interpolation
  • Curve Fitting
  • Numerical Differentiation and Integration
  • Numerical Solution of Ordinary and Partial Differential Equations
  • Basic Concepts and Definitions
  • Fluid Kinematics
  • Statics of Fluids
  • Manometers and Pressure Measurement
  • Forces on Submerged Surfaces
  • Translation and Rotation of Fluid Blocks
  • Integral Form of Conservation Equations
  • Control Volume and System Concepts
  • Reynolds Transport Theorem
  • Conservation of Mass, Momentum, and Energy
  • Bernoulli’s Equation
  • Derivation of Continuity, Momentum, and Energy Equations in Differential Form
  • Navier-Stokes Equations and Applications
  • Stream and Potential Functions
  • Dimensional Analysis and Similarity
  • Introduction
  • How Markets Work
  • Markets and Welfare
  • The Economics of the Public Sector
  • Firm Behavior and the Organization of Industry
  • The Data of Macroeconomics
  • The Real Economy in the Long Run
  • Money and Prices in the Long Run
  • The Macroeconomics of Open Economies